CN109077883A - Electronic ambulance bed with automatic bed control system - Google Patents
Electronic ambulance bed with automatic bed control system Download PDFInfo
- Publication number
- CN109077883A CN109077883A CN201810782342.1A CN201810782342A CN109077883A CN 109077883 A CN109077883 A CN 109077883A CN 201810782342 A CN201810782342 A CN 201810782342A CN 109077883 A CN109077883 A CN 109077883A
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- Prior art keywords
- bed
- supporting leg
- control
- ambulance
- controller
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/013—Stretchers foldable or collapsible
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/017—Stretchers convertible into chairs
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/0206—Stretchers with wheels characterised by the number of supporting wheels if stretcher is extended
- A61G1/0212—2 pairs having wheels within a pair on the same position in longitudinal direction, e.g. on the same axis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/0237—Stretchers with wheels having at least one swivelling wheel, e.g. castors
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/0237—Stretchers with wheels having at least one swivelling wheel, e.g. castors
- A61G1/0243—Stretchers with wheels having at least one swivelling wheel, e.g. castors with lockable swivel action, e.g. fixing castor in certain direction
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/025—Stretchers with wheels having auxiliary wheels, e.g. wheels not touching the ground in extended position
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/025—Stretchers with wheels having auxiliary wheels, e.g. wheels not touching the ground in extended position
- A61G1/0256—Stretchers with wheels having auxiliary wheels, e.g. wheels not touching the ground in extended position having wheels which support exclusively if stretcher is in low position, e.g. on the folded legs
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/025—Stretchers with wheels having auxiliary wheels, e.g. wheels not touching the ground in extended position
- A61G1/0262—Stretchers with wheels having auxiliary wheels, e.g. wheels not touching the ground in extended position having loading wheels situated in the front during loading
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/02—Stretchers with wheels
- A61G1/0287—Stretchers with wheels having brakes, e.g. slowing down and/or holding
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/04—Parts, details or accessories, e.g. head-, foot-, or like rests specially adapted for stretchers
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/04—Parts, details or accessories, e.g. head-, foot-, or like rests specially adapted for stretchers
- A61G1/052—Struts, spars or legs
- A61G1/056—Swivelling legs
- A61G1/0562—Swivelling legs independently foldable, i.e. at least part of the leg folding movement is not simultaneous
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G1/00—Stretchers
- A61G1/04—Parts, details or accessories, e.g. head-, foot-, or like rests specially adapted for stretchers
- A61G1/052—Struts, spars or legs
- A61G1/056—Swivelling legs
- A61G1/0565—Swivelling legs simultaneously folding, e.g. parallelogram structures
- A61G1/0567—Swivelling legs simultaneously folding, e.g. parallelogram structures folding in x-shape
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G13/00—Operating tables; Auxiliary appliances therefor
- A61G13/02—Adjustable operating tables; Controls therefor
- A61G13/06—Adjustable operating tables; Controls therefor raising or lowering of the whole table surface
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/10—General characteristics of devices characterised by specific control means, e.g. for adjustment or steering
- A61G2203/12—Remote controls
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/10—General characteristics of devices characterised by specific control means, e.g. for adjustment or steering
- A61G2203/16—Touchpads
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/10—General characteristics of devices characterised by specific control means, e.g. for adjustment or steering
- A61G2203/20—Displays or monitors
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/30—General characteristics of devices characterised by sensor means
- A61G2203/40—General characteristics of devices characterised by sensor means for distance
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/30—General characteristics of devices characterised by sensor means
- A61G2203/42—General characteristics of devices characterised by sensor means for inclination
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G2203/00—General characteristics of devices
- A61G2203/70—General characteristics of devices with special adaptations, e.g. for safety or comfort
- A61G2203/72—General characteristics of devices with special adaptations, e.g. for safety or comfort for collision prevention
- A61G2203/726—General characteristics of devices with special adaptations, e.g. for safety or comfort for collision prevention for automatic deactivation, e.g. deactivation of actuators or motors
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/40—Bus networks
- H04L2012/40208—Bus networks characterized by the use of a particular bus standard
- H04L2012/40215—Controller Area Network CAN
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/40—Bus networks
- H04L2012/40208—Bus networks characterized by the use of a particular bus standard
- H04L2012/40234—Local Interconnect Network LIN
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- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Engineering & Computer Science (AREA)
- Biomedical Technology (AREA)
- Accommodation For Nursing Or Treatment Tables (AREA)
- Invalid Beds And Related Equipment (AREA)
- Fluid-Pressure Circuits (AREA)
- Electrotherapy Devices (AREA)
- Circuit For Audible Band Transducer (AREA)
- Apparatus Associated With Microorganisms And Enzymes (AREA)
Abstract
The invention discloses a kind of electronic ambulance beds (10) and the method for raising and reducing bed and loading and unloading bed.The bed includes braced frame (12) and supporting leg (20,40), and each supporting leg has runner (26,46).The actuator (16) of actuating system interconnects the frame and supporting leg, and is configured to change relative to the runner of each supporting leg the height of the frame.Control system controls the activation of the actuating system, and detect: the actuator is in first orientation relative to the frame, wherein the first orientation is positioned closer to the frame far from second orientation, and by the end far from each runner of the actuator;And thus the height of the request change braced frame makes the supporting leg relative to the presence of the signal of braced frame movement.
Description
Technical field
The present invention relates generally to emergency patients to transport object, and relates in particular to a kind of with automatic bed control system
The electronic ambulance bed of system.
Background technique
Object is being transported using a variety of emergency patients now.These emergency patients transport object and can be designed to bariatrician
Patient transfer is simultaneously loaded into ambulance.For example, the Ferno-Washington of Ohio, USA, Inc.of
Wilmington manufactureBed is such a patient transfer's object, it is embodied as activating manually sleeping
Bed, the load which can be about 700 pounds (about 317.5kg) provide stability and support.Bed includes
Patient support part is attached to belt wheel undercarriage.Belt wheel undercarriage includes X frame geometry, which can be with
Change between nine kinds of optional positions.The advantages of one of this bed design has recognized that is X frame in all optional positions
Minimum flexure and centre of gravity can be provided.The advantages of this another designed of lying in bed has recognized that is that the optional position can
To provide better leverage for being manually lifted and loading bariatrician patient.
Another example for emergency patients' transport object of bariatrician patient design is Ferno-Washington,
The electronic bed of POWERFlexx+ of Inc manufacture.The electronic bed of POWERFlexx+ includes battery powered actuator, the actuator
Can provide be enough to be lifted about 700 pounds (about 317.5kg) load abundant power.One of this bed design has recognized
The advantages of knowing is that bariatrician patient can be lifted to higher position from lower position by bed, that is, operator needs to be lifted
The case where patient, is likely to reduced.
It is multipurpose roll-in first aid bed that another emergency patients, which transports object, which has patient support stretcher,
It is removably attached to belt wheel undercarriage or transport object.Patient support stretcher is moved up from transport object divided by for being used alone
When, can horizontally shuttle movement everywhere on one group of runner for being included.One of this bed design has recognized that excellent
Point is that stretcher can separate the first aid transport for being rolled to such as minibus, lorry, combined type ambulance, aircraft or helicopter etc
In tool, wherein the weight of space and reduction is additional advantage.Another advantage of this bed design is separated stretcher
Can be easier to deliver in uneven landform, and from use complete bed can not the positions of transport patients be carried out.
The example of these beds is referred to United States Patent (USP) No.4,037,871, No.4,921,295 and International Publication
No.WO01701611。
Although it is generally enough for its desired use that aforementioned emergency patients transport object, they are not all
Aspect is all satisfactory.For example, aforementioned emergency patients transport object, which is loaded into the loading process in ambulance, needs at least one
Load of the operator in a part support bed of corresponding loading process.
Summary of the invention
Embodiment as described herein is related to a kind of electronic ambulance bed with automatic bed control system, it is multi-purpose
Roll-in first aid bed design in way provides improved versatility, method be by via rolling be loaded onto such as ambulance,
While in various types of first aid means of transports of lorry, minibus, aircraft and helicopter etc, provide to bed weight
Improved management, improved weight, and/or to be easier to load in any bed height.
By it is described in detail below cooperation attached drawing will be more fully understood the embodiment of the present invention offer these and in addition
Feature.
Detailed description of the invention
The detailed description of specific embodiments of the present invention can be best understood when cooperating the following drawings below, attached drawing
It is middle to indicate similar structure and wherein with similar reference label:
Fig. 1 is to describe to be liied in bed according to the roll-in of one or more embodiments described herein from electronic ambulance is activated
Perspective view;
Fig. 2 is to describe according to one or more embodiments described herein and show the roll-in of hatching A-A certainly
Activate the top view of electronic ambulance bed;
Fig. 3 is to describe to be liied in bed according to the roll-in of one or more embodiments described herein from electronic ambulance is activated
Side view;
Fig. 4 A to Fig. 4 C is to describe to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
It protects the raising of vehicle bed and/or reduces the side view of sequence;
Fig. 5 A to Fig. 5 E is to describe to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
It protects the loading of vehicle bed and/or unloads the side view of sequence;
Fig. 6 schematically describes activates electronic rescue according to the roll-in of one or more embodiments described herein certainly
The actuator system of vehicle bed;
Fig. 6 A to Fig. 6 D schematically describes to be activated certainly according to the roll-in of one or more embodiments described herein
The hydraulic circuit according to one or more embodiments described herein that electronic ambulance bed uses;
Fig. 7 schematically describes the roll-in with electric system according to one or more embodiments described herein
It lies in bed from electronic ambulance is activated;
Fig. 8 schematically describes activates electronic rescue according to the roll-in of one or more embodiments described herein certainly
A part of the rear end of vehicle bed, diagram has been cut open for convenience;
Fig. 9 schematically describes activates electronic rescue according to the roll-in of one or more embodiments described herein certainly
The runner sub-assembly that vehicle bed uses;
Figure 10, which schematically describes, to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
The runner sub-assembly that shield vehicle bed uses;
Figure 11, which schematically describes, to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
The uplink escalator function that shield vehicle bed uses;
Figure 12, which schematically describes, to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
The downlink escalator function that shield vehicle bed uses;
Figure 13 schematically describes to be activated for executing according to one or more embodiments described herein roll-in certainly
The method for the escalator function that electronic ambulance bed uses;
Figure 14 A, which schematically describes, is in sitting posture loading or chair according to one or more embodiments described herein
Perspective view of the roll-in of position from the electronic ambulance bed of actuating;
Figure 14 B, which schematically describes, is in sitting posture loading or chair according to one or more embodiments described herein
Side view of the roll-in of position from the electronic ambulance bed of actuating;
Figure 15, which schematically describes, to be rescued according to the roll-in of one or more embodiments described herein from actuating is electronic
The bed control system that shield vehicle bed uses;
Figure 16 is the electricity shown by according to the bed control system of Figure 15 of one or more embodiments described herein
The figure for the communication information that machine controller is sent;
Figure 17 is the electricity shown by according to the bed control system of Figure 15 of one or more embodiments described herein
The figure for the communication information that pool controller is sent;
Figure 18 is the figure by showing the bed control system according to Figure 15 of one or more embodiments described herein
The figure for the communication information that shape user interface controller is sent;
Figure 19 schematically describes the bed control system according to Figure 15 of one or more embodiments described herein
Electric machine controller;
Figure 20 is examined automatically according to the bed control system of Figure 15 of one or more embodiments described herein
The program flow diagram of condition and the operation executed automatically;
Figure 21 is the motor for showing the bed control system according to Figure 19 of one or more embodiments described herein
The figure for input code signal correlation and the motor status selection that controller executes;
Figure 22 schematically describes the rolling into first position according to one or more embodiments described herein
The viewgraph of cross-section that formula is obtained from the pivotal plate for activating electronic ambulance bed along the hatching A-A in Fig. 3;
Figure 23 schematically describes the rolling into the second position according to one or more embodiments described herein
The viewgraph of cross-section that formula is obtained from the pivotal plate for activating electronic ambulance bed along the hatching A-A in Fig. 3;And
Figure 24 A to Figure 24 D is the drawing of some graphic user interfaces, and each graphic user interface illustrates that roll-in certainly
The difference for activating electronic ambulance bed selectes the image of operation mode.
The property of the embodiment illustrated in attached drawing is illustrative, and is not intended to limit implementation as described herein
Example.In addition, it is contemplated that detailed description will more fully be appreciated and understood that each feature of drawings and examples.
Specific embodiment
Referring to Fig. 1, is shown in figure for the transport patients above and patient is loaded into the rolling in first aid means of transport
Enter formula from the electronic ambulance bed 10 of actuating.Bed 10 includes braced frame 12, and braced frame 12 includes front end 17 and rear end 19.
As used herein, front end 17 lie in bed with term " load terminal " 10 be loaded first into load surface on end it is synonymous.
On the contrary, as used herein, rear end 19 is the end of bed 10 being finally loaded on loading surface, and " is controlled with term
End processed " is synonymous, and control terminal is to provide the end of multiple operator's controls as discussed herein.It is further noted that when bed 10
On when loading patient, the head of patient can be oriented near front end 17, and the foot of patient can be oriented near rear
End 19.Therefore, phrase " head end " can be used interchangeably with phrase " front end ", and phrase " foot " can be mutual with phrase " rear end "
Change use.Moreover, it is noted that phrase " front end " and " rear end " are interchangeable.Therefore, although for the sake of clarity in the whole text
These phrases are consistently used, but embodiment as described herein can change using without departing from the scope of the present invention.
By and large, as used herein, term " patient " refers to any thing to live or the thing originally to live, such as
People, animal, corpse etc..
Referring to Fig. 2, front end 17 and/or rear end 19 can be telescopic.In one embodiment, front end 17 can extend
And/or it retracts and (is generally indicated by arrow 217 in Fig. 2).In another embodiment, rear end 19 can extend and/or retract
(generally being indicated by arrow 219 in Fig. 2).Therefore, the total length between front end 17 and rear end 19 can increase and/or reduce
To adapt to the various figures of patient.
Referring to Figures 1 and 2, braced frame 12 may include a pair of substantially parallel side members 15, in front end 17 with after
Extend between end 19.It is contemplated that the various structures of side members 15.In one embodiment, side members 15 can be a pair
Metal track spaced apart.In another embodiment, side members 15 include bottom cutting portion 115, bottom cutting portion 115 can with it is attached
Part fixture (not describing) engagement.These accessory clamps can be used for patient care attachment (such as IV pole) removedly
It is attached to bottom cutting portion 115.Bottom cutting portion 115 can be arranged along the whole length of side members, to allow attachment can be removed
Ground is clamped to many different locations in bed 10.
Referring again to Fig. 1, bed 10 further includes a pair of retractible and extendible dress for being connected to braced frame 12
End supporting leg 20 is carried, and is connected to a pair of retractible and extendible control terminal supporting leg 40 of braced frame 12.Bed 10
It may include any rigid material, such as metal structure or composite construction.Specifically, braced frame 12, load terminal supporting leg
20, control terminal supporting leg 40 or combinations thereof may include carbon fiber and resin structure.If being more fully described herein, filled by extending
Bed 10 can be increased to multiple height by carrying end supporting leg 20 and/or control terminal supporting leg 40, or by retracting load terminal supporting leg
20 and/or control terminal supporting leg 40 bed 10 can be reduced to multiple height.It should be noted that such as " raising ", " reduction ", " on
The term of side ", " lower section " and " height " is used herein to mean that using object of reference (such as the surface for supporting bed) along flat
The distance between the object that row is measured in the line of gravity relationship.
In a particular embodiment, load terminal supporting leg 20 and control terminal supporting leg 40 can be each coupled to side members 15.Such as
Shown in Fig. 4 A to Fig. 5 E, (specifically couple in load terminal supporting leg 20 and control terminal supporting leg 40 when checking bed from side
To braced frame 12 (such as (Fig. 1-to the corresponding position of Fig. 3))) the load terminal supporting leg 20 of side members 15 and control terminal supporting leg
40 can be intersected with each other.As shown in the embodiment of figure 1, control terminal supporting leg 40 can be placed in 20 inside of load terminal supporting leg, that is,
Being spaced each other for load terminal supporting leg 20 can be more farther than being spaced each other for control terminal supporting leg 40, so that each control terminal supporting leg 40
Between load terminal supporting leg 20.In addition, load terminal supporting leg 20 and control terminal supporting leg 40 may include that front runner 26 and rear portion turn
Wheel 46, these runners enable bed 10 to roll.
In one embodiment, front runner 26 and rear portion runner 46 can be universal wheel (swivel caster
) or rotation lock fixed wheel (swivel locked wheels) wheels.When bed 10 is lifted and/or is reduced, front runner 26
It can be synchronized with rear portion runner 46 substantially flat with the plane of the plane and runner 26,46 that ensure the side members 15 of bed 10
Row.
Referring to Fig. 1 to Fig. 3 and Fig. 6, bed 10 may also include bed actuating system 34, which includes quilt
It is configured to the front actuators 16 of mobile load terminal supporting leg 20 and is configured to the rear portion actuator 18 of mobile control terminal supporting leg 40.
Bed actuating system 34 may include a unit (such as centralized motor and pump), which is configured to control front actuators
16 and 18 two elements of rear portion actuator.For example, bed actuating system 34 may include a shell, which has an electricity
Machine, motor can utilize valve, control logic etc. driving front actuators 16, rear portion actuator 18 or the two elements.It replaces
Dai Di, as depicted in FIG. 1, bed actuating system 34 may include separated unit, be configured to respectively control front actuators
16 and rear portion actuator 18.In this embodiment, front actuators 16 and rear portion actuator 18 can respectively include separated shell
Body, these shells have each motor to drive each element in front actuators 16 and rear portion actuator 18.
Front actuators 16 are connected to braced frame 12 and are configured to actuating load terminal supporting leg 20 and are lifted and/or reduce
The front end 17 of bed 10.In addition, rear portion actuator 18 is connected to braced frame 12, and it is configured to actuation control end supporting leg 40 simultaneously
And increase and/or reduce the rear end 19 of bed 10.Bed 10 can pass through any suitable power supply power supply.For example, bed 10 can
To include battery, battery is capable of supply that the voltage that such as about 24V is nominal or about 32V is nominal is used for its power supply.
Front actuators 16 and rear portion actuator 18 can be operated simultaneously or independently to activate load terminal supporting leg 20 and control terminal
Supporting leg 40.As shown in Fig. 4 A to Fig. 5 E, while and/or independent actuation allow to lie in bed and 10 be arranged to various height.This paper institute
The actuator stated may be capable of providing about 350 pounds (about 158.8kg) power and about 500 pounds (about 226.8kg)
Static(al).In addition, front actuators 16 and rear portion actuator 18 can pass through centralized electric system or multiple individual motor systems
Operation.
In the one embodiment schematically described in Fig. 1 to Fig. 3 and Fig. 6, front actuators 16 and rear portion actuator
18 include the hydraulic actuator for activating bed 10.In one embodiment, front actuators 16 and rear portion actuator 18 are
It is double to bear hydraulic actuator (dual piggy back hydraulic actuators), that is, front actuators 16 and rear portion cause
The dynamic each self-forming principal and subordinate hydraulic circuit of device 18.Principal and subordinate's hydraulic circuit includes four hydraulic cylinders, is had there are four extension rod, these
Extension rod bears (that is, mechanical attachment) each other in couples.Therefore, dual actuator of bearing includes first with the first bar hydraulic
Cylinder, the second hydraulic cylinder with the second bar, the third hydraulic cylinder with third bar and the with the 4th bar the 4th are hydraulic
Cylinder.Although should be noted that embodiment as described herein often referring to the master-slave system for including four hydraulic cylinders, this paper institute
The master-slave system hydraulic circuit stated may include any even number hydraulic cylinder.
Referring to Fig. 6, front actuators 16 and rear portion actuator 18 respectively include rigid support frame 180, rigid support frame
Frame 180 is substantially (that is, two vertical portions are connected by lateral part) of " H " shape.Rigid support frame 180 includes
Cross member 182, cross member 182 couple in the about middle position of each of two vertical parts 184 vertical part
To two vertical parts 184.Pump motor 160 and fluid reservoir 162 are connected to cross member 182 and are in fluid communication.One
In a embodiment, pump motor 160 and fluid reservoir 162 are placed on the opposite side of cross member 182 (such as fluid reservoir
162 are placed in 160 top of pump motor).Specifically, pump motor 160 can be the brush bispin that peak value exports about 1400 watts
Motor.Rigid support frame 180 may include additional cross member or backer board to provide more hardness, and cause
The torsion or transverse movement of vertical part 184 are resisted during dynamic relative to cross member 182.
Each vertical part 184 includes that a pair bears hydraulic cylinder (that is, the first hydraulic cylinder and the second hydraulic cylinder or the
Three hydraulic cylinders and the 4th hydraulic cylinder), wherein the bar of the first cylinder extends in a first direction, and the bar of the second cylinder is in base
Opposite side upwardly extends in sheet.When cylinder arrangement is configured at a principal and subordinate, one in vertical part 184 includes top master
Cylinder 168 and lower part master cylinders 268.Another in vertical part 184 includes top subordinate cylinder 169 and lower part subordinate cylinder
269.It should be noted that although master cylinders 168,268 are born together, and extension rod 165,265 on essentially the inverse direction,
But master cylinders 168,268 can be located in alternate vertical part 184 and/or extension rod in substantially the same direction
165、265。
Referring now to Fig. 6 A to Fig. 6 D, cylinder casing 122 may include upper cylinder 168 and lower cylinder 268.Top is living
Plug 164 may be limited in upper cylinder 168, and and be configured to when being acted on by hydraulic fluid in upper piston 164
Middle traveling.Upper bar 165 can be connected to upper piston 164 and as upper piston 164 is mobile.Upper cylinder 168 can be with
Extend fluid path 312 with the bar on opposite sides of upper piston 164 and bar retracts fluid path 322 and is in fluid communication.Therefore, when
When bigger than the pressure that bar retraction fluid path 322 is supplied to hydraulic fluid via bar extension fluid path 312, upper piston
164 can extend and can retract the promotion fluid outflow upper piston 164 of fluid path 322 via bar.It is retracted when via bar
When fluid path 322 is bigger than the pressure that bar extension fluid path 312 is supplied to hydraulic fluid, upper piston 164 can be retracted
And can extend fluid path 312 via bar pushes fluid to flow out upper piston 164.
Similarly, lower piston 264 may be limited in lower cylinder 268, and may be configured to when by hydraulic
It advances in lower piston 264 when fluid matasomatism.Lower pole 265 can be connected to lower piston 264 and with lower piston
264 is mobile.Lower cylinder 268 can extend fluid path 314 with the bar on opposite sides of lower piston 264 and bar retracts fluid
Path 324 is in fluid communication.Therefore, when via bar extend fluid path 314 than bar retract fluid path 324 to hydraulic fluid supply
Pressure it is bigger when, lower piston 264 can extend and can via bar retract fluid path 324 push fluid outflow lower part
Piston 264.When bigger than the pressure that bar extension fluid path 314 is supplied to hydraulic fluid via bar retraction fluid path 324,
Lower piston 264, which can retract and can extend fluid path 314 via bar, pushes fluid outflow lower piston 264.
In some embodiments, hydraulic actuator 120 activates upper bar 165 and lower pole 265 in a manner of self balancing,
To allow upper bar 165 and lower pole 265 to extend and retract with friction speed.It has been found by the applicant that when upper bar 165 is under
When portion's 265 autobalance of bar, hydraulic actuator 120 can be extended and be retracted with bigger reliability and speed.It is being not bound by opinion
Under constraint, it is believed that the difference speed of the actuating of upper bar 165 and lower pole 265 allows hydraulic actuator 120 to a variety of carrier strips
Part is dynamically reacted.For example, bar extends fluid path 312 and bar extends fluid path 314 and fluid can connect directly with one another
It is logical, without disposing any pressure-regulating device in-between.Similarly, bar retracts fluid path 322 and bar retracts fluid path
324 can be in fluid communication directly with one another, without disposing any pressure-regulating device in-between.Therefore, hydraulic when pushing simultaneously
When fluid extends fluid path 312 and bar extension fluid path 314 by bar, upper bar 165 and lower pole 265 can be according to works
The difference of resistance on each bar in upper bar 165 and lower pole 265 and extended with differential fashion, the resistance such as example
The load that is applied in this way, displacement volume, link motion etc..Similarly, hydraulic fluid is pushed to retract stream by bar when simultaneously
When body path 322 and bar retract fluid path 324, upper bar 165 and lower pole 265 can be according to acting on 165 He of upper bar
The difference of the resistance on each bar in lower pole 265 and retracted with differential fashion.
Referring still to Fig. 6 A to Fig. 6 D, hydraulic circuit shell 150 can form hydraulic circuit 300, for by extending fluid
Path 310 and retraction fluid path 320 transmit fluid.In some embodiments, hydraulic circuit 300, which can be configured so that, passes through
The selectivity of pump motor 160 operates, and can extend fluid path 310 and retract every fluid path in fluid path 320
In push or pull hydraulic fluid.Specifically, pump motor 160 can be via fluid supply path 304 and fluid reservoir 162
It is in fluid communication.Pump motor 160, which can also extend fluid path 326 via pump and extend fluid path 310, to be in fluid communication, and is passed through
Fluid path 316 is retracted by pump to be in fluid communication with fluid path 320 is retracted.Therefore, pump motor 160 can be from fluid reservoir
162 drawing hydraulic fluids and push hydraulic fluid fluid path 326 extended by pump or pump retract fluid path 316 to extend or
Retract hydraulic actuator 120.Although should be noted that the embodiment herein in relation to hydraulic circuit 300 described in Fig. 6 A to Fig. 6 D has
Body is illustrated using certain form of component, such as solenoid valve, check-valves, taring valve, hand-operated valve or flow regulator, but sheet
Literary the embodiment described is not limited to using any specific components.In fact, can be changed relative to the component that hydraulic circuit 300 describes
The equivalent elements of the function of hydraulic circuit 300 as described herein are executed at combination.
Referring to Fig. 6 A, pump motor 160 can push hydraulic fluid (generally indicating by arrow) along route 360 is extended
To extend upper bar 165 and lower pole 265.In some embodiments, fluid path can be extended with bar by extending fluid path 310
312 and bar extend fluid path 314 be in fluid communication.Fluid path 322 and bar retraction can be retracted with bar by retracting fluid path 320
Fluid path 324 is in fluid communication.Pump motor 160 can pull hydraulic fluid from fluid reservoir 162 via fluid supply path.
Fluid path 326 can be extended via pump and push hydraulic fluid towards fluid path 310 is extended.
It may include check-valves 332 that pump, which extends fluid path 326, be configured to prevent hydraulic fluid from extension fluid path
310 flow to pump motor 160, and allow hydraulic fluid to flow to from pump motor 160 and extend fluid path 310.Therefore, pump motor
160 can push hydraulic fluid to flow to by extension path, and bar extends fluid path 312 and bar extends in fluid path 314.Liquid
Pressure fluid can flow in upper cylinder 168 and lower cylinder 268 along route 360 is extended.When upper bar 165 and lower pole
When 265 extension, the hydraulic fluid for flowing into upper cylinder 168 and lower cylinder 268 can make hydraulic fluid flow into bar retraction fluid
Path 322 and bar retract in fluid path 324.Hydraulic fluid can flow to retraction fluid path then along route 360 is extended
In 320.
Hydraulic circuit 300 can further comprise extending Returning fluid path 306, with retraction fluid path 320 and fluid
Each of reservoir 162 is in fluid communication.In some embodiments, extending Returning fluid path 306 may include taring valve
334, it is configured to permit hydraulic fluid to flow to from fluid reservoir 162 and retracts fluid path 320, and prevent hydraulic fluid
Fluid reservoir 162 is flowed to from fluid path 320 is retracted, unless receiving pressure appropriate via guide line 328.Guide line
328 can extend fluid path 326 and the fluid communication of taring valve 334 with pump.Therefore, when 160 pumping hydraulic fluid of pump motor is logical
When crossing pump extension fluid path 326, guide line 328 can be such that taring valve 334 modulates and allow hydraulic fluid from retraction fluid
Path 320 flows to fluid reservoir 162.
Optionally, extending Returning fluid path 306 may include check-valves 346, be configured to prevent hydraulic fluid from
Fluid reservoir 162, which flows to, retracts fluid path 320, and hydraulic fluid is allowed to flow to from Returning fluid path 306 is extended
Body reservoir 162.Therefore, pump motor 160 can push hydraulic fluid to flow to fluid reservoir by retracting fluid path 320
162.In some embodiments, compared with the pressure for opening the relatively small amount that check-valves 346 needs, it may be necessary to relatively great amount of
Pressure opens check-valves 332.In a further embodiment, opening the relatively great amount of pressure that check-valves 332 needs can be more than
Open the pressure for the relatively small amount that check-valves 346 needs approximately twice as such as, such as being the pressure in another embodiment
About 3 times or bigger, or be about 5 times or bigger of the pressure in another embodiment.
In some embodiments, hydraulic circuit 300 can further comprise regenerative fluid path 350, be configured to permit
Hydraulic fluid, which is directly flowed to from retraction fluid path 320, extends fluid path 310.Therefore, regenerative fluid path 350 can permit
Fluid path 322 is retracted from bar and bar retracts the hydraulic fluid that fluid path 324 is supplied and extends along regeneration route 362 towards bar
Fluid path 312 and bar extend fluid path 314 and flow.In a further embodiment, regenerative fluid path 350 may include patrolling
Valve 352 is collected, is configured to that hydraulic fluid is selectively allowed for advance along regeneration route 362.Logical valve 352 can be communicatedly
It is connected to processor or sensor, and is configured to the opening when bed is in predetermined state.For example, when associated with supporting leg
When hydraulic actuator 120 is in the second position (as described herein, can to indicate unloaded condition) relative to first position, logic
Valve 352 can be opened.Logical valve 352 may be needed to open during hydraulic actuator 120 extends to accelerate extension speed.Regeneration
Fluid path 350 can further comprise check-valves 354, be configured to prevent hydraulic fluid from flowing to from fluid path 320 is retracted
Extend fluid path 310.In some embodiments, the amount of pressure and open what check-valves 354 needed that check-valves 332 needs are opened
Amount of pressure is about the same.
Referring to Fig. 6 B, pump motor 160 can push hydraulic fluid (generally indicating by arrow) along route 364 is retracted
To retract upper bar 165 and lower pole 265.Pump motor 160 can be led via fluid supply path 304 from fluid reservoir 162
Draw hydraulic fluid.Fluid path 316 can be retracted via pump push hydraulic fluid towards fluid path 320 is retracted.Pump retracts stream
Body path 316 may include check-valves 330, be configured to prevent hydraulic fluid from flowing to pump motor from fluid path 320 is retracted
160, and allow hydraulic fluid to flow to from pump motor 160 and retract fluid path 320.Therefore, pump motor 160 can push hydraulic
By retracting, fluid path 320 flows to bar retraction fluid path 322 to fluid and bar retracts in fluid path 324.
Hydraulic fluid can flow in upper cylinder 168 and lower cylinder 268 along route 364 is retracted.In upper bar 165
When retracting with lower pole 265, the hydraulic fluid flowed into upper cylinder 168 and lower cylinder 268 can be such that hydraulic fluid flows into
Bar extends fluid path 312 and bar extends in fluid path 314.Hydraulic fluid can prolong then along retracting route 364 and flowing to
It stretches in fluid path 310.
Hydraulic circuit 300 can further comprise retracting Returning fluid path 308, with extension fluid path 310 and fluid
Each of reservoir 162 is in fluid communication.In some embodiments, retracting Returning fluid path 308 may include taring valve
336, it is configured to permit hydraulic fluid to flow to from fluid reservoir 162 and extends fluid path 310, and prevent hydraulic fluid
Fluid reservoir 162 is flowed to from fluid path 310 is extended, unless receiving pressure appropriate via guide line 318.Guide line
318 can retract fluid path 316 and the fluid communication of taring valve 336 with pump.Therefore, when 160 pumping hydraulic fluid of pump motor is logical
When crossing pump retraction fluid path 316, guide line 318 can be such that taring valve 336 modulates and allow hydraulic fluid from extension fluid
Path 310 flows to fluid reservoir 162.
It, can also although hydraulic actuator 120 is usually to be powered by pump motor 160 referring concurrently to Fig. 6 A to Fig. 6 D
Manually to activate hydraulic actuator 120 after around pump motor 160.Specifically, hydraulic circuit 300 may include manual
Supply fluid path 370, manual refraction Returning fluid path 372 and manual extension Returning fluid path 374.Manual supply fluid
Path 370 is configured for 268 supply fluid of upper cylinder 168 and lower cylinder.In some embodiments, manually
Supply fluid path 370 can be in fluid communication with fluid reservoir 162 and extension fluid path 310.In a further embodiment,
Manual supply fluid path 370 may include check-valves 348, be configured to prevent hydraulic fluid from manual supply fluid path
370 flow to fluid reservoir 162, and allow hydraulic fluid to flow to from fluid reservoir 162 and extend fluid path 310.Therefore,
Manual manipulation upper piston 164 and lower piston 264 can make hydraulic fluid flow through check-valves 348.In some embodiments, with
It opens the relatively great amount of pressure that check-valves 346 needs to compare, it may be necessary to which the pressure of relatively small amount opens check-valves 348.?
In other embodiment, the pressure for opening the relatively small amount that check-valves 348 needs, which can be less than or equal to opening check-valves 346, to be needed
About the 1/2 of the relatively great amount of pressure wanted, such as in another embodiment less than or equal to about 1/5, or again
Less than or equal to about 1/10 in one embodiment.
Manual refraction Returning fluid path 372 may be configured to will be from the hydraulic of upper cylinder and lower cylinder 268
Fluid returns to fluid reservoir 162, returns to upper cylinder 168 and lower cylinder 268 or the two directions.In some implementations
In example, manual refraction Returning fluid path 372 can connect with extending fluid path 310 and extending 306 fluid of Returning fluid path
It is logical.Manual refraction Returning fluid path 372 may include hand-operated valve 342, can be actuated into open position from normal closed position
It sets and flow regulator 344, is configured to limit the hydraulic fluid that can flow through manual refraction Returning fluid path 372
Amount, that is, volume per unit time.Therefore, it is possible to use flow regulator 344 provides the controlled decline of bed 10.It should infuse
Meaning, although being located between hand-operated valve 342 and extension fluid path 310 describing flow regulator 344 in Figure 12 A to Figure 12 D,
Be flow regulator 344 can be located at hydraulic circuit 300 in it is any be suitable for limit upper bar 165, lower pole 265 or the two
The position of the retraction speed of element.
Extending Returning fluid path 374 manually may be configured to the liquid from upper cylinder 168 and lower cylinder 268
It presses fluid to return to fluid reservoir 162, returns to upper cylinder 168 and lower cylinder 268 or the two directions.In some realities
Apply in example, manually extend Returning fluid path 374 can with retract fluid path 320, manual refraction Returning fluid path 372 and
Extend Returning fluid path 306 to be in fluid communication.Extending Returning fluid path 374 manually may include hand-operated valve 343, can be from
Normal closed position is activated into open position.
In some embodiments, hydraulic circuit 300 can also include that manual releasing component (such as button, tension part, is opened
Pass, connecting rod or pull rod), hand-operated valve 342 and hand-operated valve 343 are activated, to allow upper bar 165 and lower pole 265 to extend and contracting
It returns, and without using pump motor 160.Referring to the embodiment of Fig. 6 C, hand-operated valve 342 and hand-operated valve 343 can (for example) via
Manual releasing component is opened.Power can be acted on to extend upper bar 165 and lower pole 265 on hydraulic circuit 300, such as
The gravity or manual articulation of upper bar 165 and lower pole 265.In the case where hand-operated valve 342 and 343 is opened, hydraulic fluid can
To be flowed along the manual route 366 that extends, in order to the extension of upper bar 165 and lower pole 265.Specifically, working as upper bar
165 and lower pole 265 extend when, hydraulic fluid can be moved to from upper cylinder 168 and lower cylinder 268 bar retract fluid road
Diameter 322 and bar retract in fluid path 324.Hydraulic fluid fluid path 322 can be retracted from bar and bar retracts fluid path 324
It advances to and retracts in fluid path 320.
Hydraulic fluid can also be by extending Returning fluid path 374 towards extension Returning fluid path 306 and hand manually
It advances in the dynamic Returning fluid path 372 that retracts.According to the extension speed or applied force of upper bar 165 and lower pole 265, hydraulic fluid
It can flow through and extend Returning fluid path 306, by check-valves 346 and enter in fluid reservoir 162.Hydraulic fluid may be used also
To be flowed by manual refraction Returning fluid path 372 towards fluid path 310 is extended.Hydraulic fluid can also be supplied via manual
Answer fluid path 370 from fluid reservoir 162 be supplied to extend fluid path 310, that is, when manual operation generate make enough it is hydraulic
When fluid flows through the pressure of check-valves 348.Bar extension fluid path can be flowed to by extending the hydraulic fluid at fluid path 310
312 and bar extend fluid path 314.The manual extension of upper bar 165 and lower pole 265 can make hydraulic fluid extend stream from bar
Body path 312 and bar extend fluid path 314 and flow into upper cylinder 168 and lower cylinder 268.
Referring again to Fig. 6 D, when hand-operated valve 342 and the opening of hand-operated valve 343, hydraulic fluid can be along manual refraction road
Line 368 flows in order to retract upper bar 165 and lower pole 265.Specifically, when upper bar 165 and lower pole 265 retract
When, hydraulic fluid can be moved to bar from upper cylinder 168 and lower cylinder 268 and extend fluid path 312 and bar extension fluid
In path 314.Hydraulic fluid can extend fluid path 312 from bar and bar extends fluid path 314 and advances to extension fluid road
In diameter 310.
Hydraulic fluid can also be advanced by manual refraction Returning fluid path 372 towards flow regulator 344, flow tune
The operation of device 344 is saved to limit the flowing velocity of hydraulic fluid and the retraction speed of upper bar 165 and lower pole 265.Flow of pressurized
Body can then be flowed towards extension Returning fluid path 374 manually.Hydraulic fluid, which can then flow through to extend manually, returns to stream
Body path 374, which enters, to be retracted in fluid path 320.According to the retraction speed and flow regulator of upper bar 165 and lower pole 265
344 permissible velocity, some hydraulic fluids may leak into fluid reservoir 162 by check-valves 346.In some embodiments
In, the permissible velocity rate of flow regulator 344 and the opening pressure of check-valves 346 may be configured to basically prevent hydraulic
Fluid flows through check-valves 346 during manual refraction.It has been found that by forbidding flowing through check-valves 346, it can be ensured that top
Cylinder 168 and lower cylinder 268 are always maintained at prepackage, and reduce the case where air penetration during manual refraction.
Bar retraction fluid path 322 and bar retraction fluid path can be flowed to by retracting the hydraulic fluid in fluid path 320
324.The manual refraction of upper bar 165 and lower pole 265 can make hydraulic fluid retract fluid path 322 and bar retraction stream from bar
Body path 324 flows into upper cylinder 168 and lower cylinder 268.Although it should be noted that being described relative to Fig. 6 C and Fig. 6 D manual
It is separated operation that embodiment, which is described and extends and retract, it can be envisaged that extends manually and manual refraction can be held in single operation
Row.For example, upper bar 165 and lower pole 265 can prolong in response to applied force after opening hand-operated valve 342 and hand-operated valve 343
Stretch, retract or successively execute the two movements.
Referring again to Fig. 1 and Fig. 2, in order to determine whether bed 10 horizontal, can be used sensor (not describing) measurement away from
From and/or angle.For example, front actuators 16 and rear portion actuator 18 can respectively include encoder, encoder determines each
The length of actuator.In one embodiment, encoder is real-time encoder, is powered or is not powered (that is, manually in bed
Control) when, which can operate to detect the variation of the length of the movement of the total length of actuator or actuator.Although can set
Think various encoders, but in a commercial embodiment, encoder can be Midwest Motion Products,
The optical encoder that Inc.of Watertown, MN U.S.A is generated.In other embodiments, bed includes angular transducer,
It measures actual angle or angle change, such as potentiometer rotation sensor, Hall effect rotation sensor etc..Angle
Sensor can be operated to detect the angle of the part of any pivot of load terminal supporting leg 20 and/or control terminal supporting leg 40 connection
Degree.In one embodiment, angular transducer is operably linked to load terminal supporting leg 20 and control terminal supporting leg 40, to detect dress
Carry the difference (angle delta) between the angle of end supporting leg 20 and the angle of control terminal supporting leg 40.Loading condition angle can be set into
Such as about 20 ° of angle or it is any other be indicated generally bed 10 in a kind of loading condition (indicate load and/or unload
Carry) angle.Therefore, when angle delta exceeds the loading condition angle, bed 10 can detecte it and be in a kind of loading shape
State, and certain movements are executed according in the loading condition.
Referring now to Fig. 7, in one embodiment, control casket 50 communicatedly couples (generally by arrowed line
Indicate) arrive one or more processors 100.Each of one or more processors 100 processor can be it is any can
Execute the device of machine readable instructions, such as controller, integrated circuit, microchip etc..As used herein, term
" communicatedly couple " mean component can signal exchanging data with one another, such as via conducting medium switching telecommunication number, warp
By air exchange electromagnetic signal, via optical waveguide exchange optical signal etc..
One or more processors 100 can be communicably coupled to one or more memory modules 102, memory module
102 can be any device that can store machine readable instructions.One or more of memory modules 102 may include appointing
The memory of what type, such as read-only memory (ROM), random access memory (RAM), additional storage are (such as hard
Disk drive) or combinations thereof.The suitable example of ROM includes but is not limited to programmable read only memory (PROM), erasable
Programmable read only memory (EPROM), electrically erasable programmable read-only memory (EEPROM), electricity can change read-only memory
(EAROM), flash memory or combinations thereof.The suitable example of RAM includes but is not limited to static state RAM (SRAM) or dynamic
RAM(DRAM)。
Embodiment as described herein can be automatic real and executing machine readable instructions with one or more processors 100
Row method.Machine readable instructions may include any programming language with any generation-inter- (such as 1GL, 2GL, 3GL, 4GL or 5GL)
The logic or algorithm write, the machine language that such as can be directly executed by processor or assembler language, object-oriented
(OOP), script processing language, microcode etc. are programmed, can be compiled or be assembled into machine readable instructions and be stored.
Alternatively, machine readable instructions can be write with hardware description language (HDL), such as via field programmable gate array (FPGA)
The logic that configuration or specific integrated circuit (ASIC) or its equivalent are implemented.Therefore, approach described herein can be with any
The combination that conventional computer programming language is implemented, is implemented as the hardware element of pre-programmed or is implemented as hardware and component software.
Referring concurrently to Fig. 2 and Fig. 7, before front actuators sensor 62 and rear portion actuator sensor 64 are configured to detection
Whether portion's actuator 16 and rear portion actuator 18 are located at first position or the second position, and first position makes each actuator
Relatively closer to the bottom surface (Fig. 2) of the corresponding cross member in a pair of of cross member 63,65, the second position makes each for position
The position of actuator is farther from the corresponding cross member in cross member 63,65 relative to first position, and by the inspection
Survey is transmitted to one or more processors 100.In one embodiment, front actuators sensor 62 and rear portion actuator sensing
Device 64 is connected to the corresponding cross member in cross member 63,65;However, herein it is contemplated that in braced frame 12
Other positions or configuration.Sensor 62,64 can be distance measurement sensor, string encoding device, potentiometer rotation sensor, approach
Sensor, Reed switch, hall effect sensor, a combination thereof or it is any other suitable operate with detect when front cause
Dynamic device 16 and/or rear portion actuator 18 be in and/or by first position and/or the second position sensor.In other reality
It applies in example, other sensors can be used together with front and rear actuator 16,18 and/or cross member 63,65, to detect peace
It is placed in the weight (such as via strain gauge) of the patient in bed 10.It should be noted that as used herein term " sensor " meaning
Think of is measurement physical magnitude, state or attribute and converts thereof into relevant to the measured value of the physical magnitude, state or attribute
The device of signal.In addition, mean can be from a location transmission to the electric, magnetical or optical of another position for term " signal "
Waveform, such as electric current, voltage, luminous flux, DC, AC, sine wave, triangular wave, square wave etc..
Referring concurrently to Fig. 3 and Fig. 7, bed 10 may include front angle sensor 66 and rear portion angular transducer 68,
It is communicably coupled to one or more processors 100.Front angle sensor 66 and rear portion angular transducer 68 can be any
Sensor measures the variation of actual angle or angle, such as potentiometer rotation sensor, Hall effect rotation sensor
Etc..Front angle sensor 66 can be operated to detect the front angle α of the pivot coupling part of load terminal supporting leg 20f。
Rear portion angular transducer 68 can be operated to detect the rear portion angle [alpha] of the pivot coupling part of control terminal supporting leg 40b.At one
In embodiment, front angle sensor 66 and rear portion angular transducer 68 are respectively operably connected to load terminal supporting leg 20 and control
End supporting leg 40 processed.Therefore, one or more processors 100 can execute machine readable instructions to determine front angle αfWith rear portion
Angle [alpha]bBetween difference (angle delta).Such as about 20 ° of angle or any other total can be set into loading condition angle
Angle of the bed 10 in a kind of loading condition (indicating loading and/or unloading) is indicated on body.Therefore, when angle delta exceeds the dress
When carrying state angle, bed 10 can detecte it and be in a kind of loading condition, and execute certain according in the loading condition
A little movements.Alternatively, range sensor can be used to perform similarly to determine front angle αfWith rear portion angle [alpha]bAngle measurement
Measurement.For example, can determine the angle from load terminal supporting leg 20 and/or control terminal supporting leg 40 relative to the positioning of side members 15
Degree.For example, load terminal supporting leg 20 and the distance between the reference point along side members 15 can be measured.Similarly, it can survey
Measure control terminal supporting leg 40 and the distance between the reference point along side members 15.Furthermore, it is possible to measure 16 He of front actuators
The distance that rear portion actuator 18 extends.Therefore, any one of range measurement or angle measurement as described herein measurement can be mutual
It changes using the positioning to determine the component of bed 10.
Moreover, it is noted that range sensor can be connected to bed 10 any part, allow to determine lower surface with
Such as the distance between following assemblies: front end 17, rear end 19, front loading runner 70, front runner 26, intermediate load turn
Wheel 30, rear portion runner 46, front actuators 16 or rear portion actuator 18.
Referring concurrently to Fig. 3 and Fig. 7, front end 17 may include a pair of of front loading runner 70, be configured to assist to lie in bed
10 are loaded on loading surface (such as bottom plate of ambulance).Bed 10 may include loading end sensor 76, communicatedly couple
To one or more processors 100.Loading end sensor 76 is range sensor, can be operated to detect front loading runner 70
Relative to the position (such as from the surface detected to the distance of front loading runner 70) for loading surface.Suitable Distance-sensing
Device includes but is not limited to ultrasonic sensor, touch sensor, proximity sensor or any other is able to detect from object
The sensor of distance.In one embodiment, loading end sensor 76 can operate directly or indirectly to detect from front loading and turn
Distance of the wheel 70 to the essentially directly surface below front loading runner 70.It can be with specifically, loading end sensor 76
When at surface in the definable distance range from front loading runner 70 (such as when surface is greater than first distance but is less than
When second distance) instruction is provided, and also referred herein as load end sensor 76 " seeing " and load surface.Therefore, it can define
Range may be arranged so that and be provided when the contact of front loading runner 70 of bed 10 loads surface by loading end sensor 76
Affirmative indication.Ensure two front loading runners 70 all on loading surface, this point may be important, and especially liied in bed
In 10 environment when being loaded into ambulance with certain gradient.
Load terminal supporting leg 20 may include intermediate loading runner 30, be attached to load terminal supporting leg 20.In one embodiment,
Centre loads runner 30 and can be placed on load terminal supporting leg 20, and adjacent to front crossbeam 22 (Fig. 2), front actuators 16 are installed
To the lower end (Fig. 6) of front crossbeam.As shown in figures 1 and 3, control terminal supporting leg 40 is not provided with any adjacent to rear cross 42
Centre loads runner, and rear portion actuator 18 is installed to the lower end (Fig. 6) of rear cross.Bed 10 may include intermediate loads sensor
77, it is communicably coupled to one or more processors 100.Intermediate loads sensor 77 is range sensor, can operate with
Detection is intermediate to load the distance between runner 30 and loading surface 500.In one embodiment, it is being filled when centre loads runner 30
Carry surface setting apart from it is interior when, intermediate loads sensor 77 can to one or more processors 100 provide signal.Although figure
In depict it is intermediate load runner 30 only on load terminal supporting leg 20, but it is further envisioned that the intermediate runner 30 that loads can also pacify
It is placed on any other position in control terminal supporting leg 40 or bed 10, so that intermediate load runner 30 and front loading runner 70
Cooperation, in order to load and/or unload (such as braced frame 12).For example, intermediate loading runner can be set and be likely to
Any position of balance fulcrum or center during loading and/or uninstall process as described herein.
Bed 10 may include rear portion actuator sensor 78, be communicably coupled to one or more processors 100.Rear portion
Actuator sensor 78 can be operated to detect the range sensor of the distance between rear portion actuator 18 and loading surface.One
In a embodiment, rear portion actuator sensor 78 can be operated with direct or indirect detection when control terminal supporting leg 40 substantially completely contracts
(Fig. 4, Fig. 5 D and Fig. 5 E) is from rear portion actuator 18 to the distance on the surface essentially directly below rear portion actuator 18 when returning.
Specifically, rear portion actuator sensor 78 can at surface in the definable distance range of rear portion actuator 18 when (example
Such as when surface is greater than first distance but is less than second distance) instruction is provided.
Referring now still to Fig. 3 and Fig. 7, bed 10 may include front driving lamp 86, be communicably coupled to one or more processing
Device 100.Front driving lamp 86 can be connected to front actuators 16 and be configured to be pivotally connected with front actuators 16.Therefore, when
Bed 10 extends in front actuators 16, retract or when any position in-between in the case where rolls, front drives lamp 86
The region in the front of the front end 17 of bed 10 can be irradiated.Bed 10 may also include rear portion driving lamp 88, communicatedly couple
To one or more processors 100.Rear portion driving lamp 88 can be connected to rear portion actuator 18, and be configured to activate with rear portion
Device 18 is pivotally connected.Therefore, when lying in bed 10 and extend in rear portion actuator 18, retract or any position in-between in the case where rolls
When, rear portion driving lamp 88 can irradiate the region in the dead astern of the rear end 19 of bed 10.Bed 10 may also include a pair of around lamp
89, it is communicably coupled to one or more processors 100.This can be connected to substantially flat around each of lamp 89
A corresponding side members in capable side members 15, thus can irradiate directly in the region for lying in bed 10 sides.One or
Multiple processors 100 can receive input from any operator's control as described herein, and make front driving lamp 86, after
Driving lamp 88 in portion's is activated around lamp 89 or any combination thereof.
In some embodiments, front driving lamp 86, rear portion driving lamp 88 and the peace for limiting bed 10 together around lamp 89
Full lighting system.In this safety illumination system of bed 10, front drives lamp 86, rear portion driving lamp 88 and surround lamp 89 together
When open or close, and can be by the control for two buttons for being such as arranged to array of buttons 52, each button limits not
Same irradiation mode.For example, one of the button in array of buttons 52 can limit " scene " lamp mode when pressed, wherein before
It portion's driving lamp 86, rear portion driving lamp 88 and opens/closes around lamp 89, and is wherein irradiated when opening around lamp 89 stable
White light.Another button in array of buttons 52 can limit " first aid " lamp mode when pressed, middle front part drive lamp 86,
Rear portion drives lamp 88 and opens/closes around lamp 89, and wherein irradiates red-red-white sequences when opening around lamp 89
Flash of light.
Referring concurrently to Fig. 1 and Fig. 7, bed 10 may include line indicator 74, be communicably coupled to one or more processing
Device 100.Line indicator 74 can be any light source that is configured to project on the surface and linearly indicate, such as laser, hair
Optical diode, projector etc..In one embodiment, line indicator 74 can be connected to bed 10 and be configured to lying in bed
The incident line on the surface of 10 lower sections is aligned so that line loads runner 30 with centre.Line can from bed 10 lower section or adjacent to
The point of bed 10 extends to the point of the side-shift from bed 10.Therefore, when the line indicator incident line, the operator of rear end 19
Member can keep during loading, unloading or loading and unloading and the visual touch of line, and uses the line as bed 10
The reference of the position of the centre of equilibrium (such as intermediate loading runner 30).
Rear end 19 may include operator's control 57 of bed 10.As used herein, operator's control 57 includes
The input module of order is received from operator and provides the output precision of instruction to operator.Therefore, operator can be with
By controlling the movement of load terminal supporting leg 20, control terminal supporting leg 40 and braced frame 12, whereby when loading and unloading bed 10
Use operator's control.Operator's control 57 may include control casket 50, be placed on the rear end 19 of bed 10.Example
Such as, control casket 50 can be communicably coupled to one or more processors 100, and one or more processors 100 communicatedly join again
It is connected to front actuators 16 and rear portion actuator 18.Controlling casket 50 may include visual display assemblies or graphic user interface
(GUI) 58, it is configured to inform that operator's front and rear actuator 16,18 is activation or deactivation.Vision is aobvious
Show component or GUI 58 may include any device that can emit image, such as liquid crystal display, touch screen etc..
Referring concurrently to Fig. 2, Fig. 7 and Fig. 8, operator's control 57 can be operated to receive and indicate to execute bed function
The user's input needed.Operator's control 57 can be communicably coupled to one or more processors 100, so that operator
The input that control 57 receives can be converted into control signal, and one or more processors 100 receive the control signal.Cause
This, operator's control 57 may include any kind of sense of touch input, can will be physically entered and be converted into control signal, all
Such as such as button, switch, microphone, knob.It should be noted that although embodiment as described herein is referring to front actuators 16
With being automatically brought into operation for rear portion actuator 18, but embodiment as described herein may include operator's control 57, be configured
At directly controlling front actuators 16 and rear portion actuator 18.That is, automated procedure described herein can be by user
Override, and front actuators 16 and rear portion actuator 18 can be activated independently of the input from control.
In some embodiments, operator's control 57 can be located on the rear end 19 of bed 10.For example, operator is controlled
Part 57 may include being located adjacent to visual display assemblies or GUI 58 and array of buttons 52 thereunder.Array of buttons 52
It may include multiple buttons, these buttons for example and are without restriction used to open/close lamp and light illumination mode, (for example) field
Scape lamp, first aid lamp etc., to select the certain operational modes of bed, such as hereafter multiple " directly powering " of subsequent partial interpretation
One of mode, and select predetermined position/arrangement of bed, such as automatically configure after press associated button and hereafter back
Partial interpretation " seat position ".Each button of array of buttons 52 may include optical element (that is, LED), in button
The optical energy of visible wavelength can be emitted when activation.Alternatively or in addition, operator's control 57 may include array of buttons 52,
It is located adjacent to visual display assemblies or GUI 58 and above it.Although it should be noted that each array of buttons 52 be portrayed as by
Four button compositions, but array of buttons 52 may include any number of button.In addition, operator's control 57 may include
Concentric array of buttons 54 (Fig. 8) comprising multiple arcs button is disposed concentrically upon around center button.In some embodiments,
Concentric array of buttons 54 can be located at 58 top of visual display assemblies or GUI.In yet another embodiment, it can control
One or more buttons 53 are set on the either side of casket 50 or two sides, can be provided and appointing in array of buttons 52 and/or 54
What identical and/or other function of button.Although it should be noted that operator's control 57 be portrayed as be located at bed 10 rear end 19,
But it is further envisioned that operator's control 57 can be located at the alternative site in braced frame 12, such as in braced frame 12
On front end 17 or side.In a still further embodiment, operator's control 57 can be wireless positioned at being removedly attached
In remote controler, which can control bed 10 and is attached in bed 10 without entity.
Operator's control 57 can further comprise increasing button 56 and reducing button 60, and increasing button 56 can operate to connect
The input that instruction increases the needs of ("+") bed 10 is received, reducing button 60 can operate to receive and indicate to reduce ("-") bed 10
The input needed.It will be appreciated that in other embodiments, other than button 56,60, increasing and/or reduce command functions can also
Button to distribute to other buttons, in such as array of buttons 52 and/or 54.If being explained in greater detail herein, button is increased
Signal can be generated in each of 56 and reduction button 60 button, which activates load terminal supporting leg 20, control terminal supporting leg 40
Or the two are to execute bed function.Bed function may need to increase, reduce, contract according to the position of bed 10 and orientation
Return or release load terminal supporting leg 20, control terminal supporting leg 40 or the two.In some embodiments, it reduces button 60 and increases button
Each of 56 buttons can be analog buttons (that is, the pressing and/or displacement of button can with control signal parameter at than
Example).Therefore, load terminal supporting leg 20, control terminal supporting leg 40 or the actuation speed of the two can with control signal parameter at than
Example.It can be backlight button alternatively or in addition, reducing button 60 and increasing each of button 56 button.
In the embodiment of Fig. 8 shown, it is also shown that two button groups 161,163 of button 56,60 are provided.First button
Group 161 is set in the fixation position in braced frame 12, so as to or adjacent end frame parts 165.Second button group 163 is set
It sets on expandable handle 167, expandable handle 167 may be positioned such that neighbouring first button group 161.Such as the arrow institute in Fig. 8
Showing, expandable handle 167 can move between the first location and the second location, in first position, the positioning of the second button group 163
At relatively close or close to the first button group 161, in the second position, the second button group 163 is opposite to press away or distant from first
Button group 161 extends.In one embodiment, the distance between first position and the second position are 225mm, in other embodiments
In, which can be the distance for arriving 400mm range selected from 120.It will be appreciated that expandable handle 167 can be at first and second
Set and multiple positions in-between between move, and these positions can be locked in.Release button 169 is pressed to unlock
Expandable handle 167 allows the second button group 163 to extend or retract relative to the first button group 161.In another embodiment
In, as Figure 14 A best describes, end frame component 165 can be arranged to downward angulation and from a pair scalable
The plane deflection that hand 167 extends and retracts.In yet another embodiment, any of the side of end frame component 165
Or either one or two of two and expandable handle 167 can be equipped with the phase in the first and second button groups 161,163
Answer a button group (Fig. 8).
The embodiment that bed 10 is activated simultaneously is turned now to, the bed 10 of Fig. 2 is portrayed as extension, thus front
Actuator sensor 62 and rear portion actuator sensor 64 detect that front actuators 16 and rear portion actuator 18 are in first
It sets, that is, the contact of front and rear actuator 16,18 and/or its very close respective transversal component 63,65, this is all to fill in this way
When carrying end supporting leg 20 and the contact lower surface of control terminal supporting leg 40 and be loaded.When front and rear actuator sensor
62,64 detect front and rear actuator 16,18 respectively first position and can by operator using reduce button
60 and increase button 56 reduce or increase when, front and rear actuator 16 and 18 is all movable.
Referring concurrently to Fig. 4 A to Fig. 4 C, schematically describes via while activating and increasing (Fig. 4 A to Fig. 4 C) or reduce
The embodiment of the bed 10 of (Fig. 4 C to Fig. 4 A) is not (it should be noted that for the sake of clarity, describe front actuators in Fig. 4 A to Fig. 4 C
16 and rear portion actuator 18).In the embodiment of description, bed 10 includes braced frame 12, with a pair of of load terminal supporting leg 20
It is sliding engaged with a pair of control end supporting leg 40.Each of load terminal supporting leg 20 is rotationally coupled to front hinge member
24, it is rotationally coupled to braced frame 12.Each control terminal supporting leg 40 is rotationally coupled to rearward hinge component
44, the rearward hinge component is rotationally coupled to braced frame 12.In the embodiment of description, 24 court of front hinge member
It is rotationally coupled to the front end of braced frame 12 17, and rearward hinge component 44 is rotationally coupled to prop up towards rear end 19
Support frame frame 12.
Fig. 4 A describes the bed 10 for being in minimum transporting position.Specifically, rear portion runner 46 and front runner 26 contact
Surface, load terminal supporting leg 20 are sliding engaged with braced frame 12, so that load terminal supporting leg 20 contacts support frame towards rear end 19
A part of frame 12, and control terminal supporting leg 40 is sliding engaged with braced frame 12, so that control terminal supporting leg 40 is towards front end
A part of 17 contact braced frames 12.Fig. 4 B describes the bed 10 for being in intermediate transportation position, that is, load terminal supporting leg 20 and control
There are intermediate transportation positions along braced frame 12 for end supporting leg 40 processed.Fig. 4 C describes the bed 10 for being in highest transporting position, that is,
Load terminal supporting leg 20 and control terminal supporting leg 40 are located so that front loading runner 70 is in greatest hope along braced frame 12
Highly, the height for being enough to load bed highly can be set into this, is such as more fully described herein.
Embodiment as described herein can be used for for patient being lifted from the position below means of transport, to prepare to suffer from
Person is loaded into means of transport (such as loading surface from ground to ambulance).Specifically, pass through while activating dress
Carry end supporting leg 20 and control terminal supporting leg 40 and slide it along braced frame 12, whereby can will bed 10 from minimum transport
Position (Fig. 4 A) is increased to intermediate transportation position (Fig. 4 B) or highest transporting position (Fig. 4 C).When being raised, actuating is so that dress
It carries end supporting leg to slide towards front end 17 and rotate around front hinge member 24, and makes control terminal supporting leg 40 towards rear end 19
It slides and surrounds the rotation of rearward hinge component 44.Specifically, user can interact with operator's control 57 (Fig. 8), and
The input (such as increasing button 56 by pressing) that instruction increases the needs of bed 10 is provided.Bed 10 is from its current location (example
Such as minimum transporting position or intermediate transportation position) it is increased to always until it reaches highest transporting position.It is transported when reaching highest
When position, actuating can be automatically stopped, that is, to be increased bed 10 and just be needed higher additional input.It can be all in any way
As electronically, aurally or manually provided input to bed 10 and/or operator's control 57.
By activating load terminal supporting leg 20 and control terminal supporting leg 40 simultaneously and sliding it along braced frame 12, whereby
Bed 10 can be reduced to minimum transporting position (Fig. 4 A) from intermediate transporting position (Fig. 4 B) or highest transporting position (Fig. 4 C).
Specifically, upon lowering, actuating so that load terminal supporting leg is slided towards rear end 19 and is rotated around front hinge member 24, and
And control terminal supporting leg 40 is made to slide towards front end 17 and rotate around rearward hinge component 44.Refer to for example, user can provide
Show the input (such as button 60 is reduced by pressing) for reducing the needs of bed 10.When an input is received, bed 10 is worked as from it
Until front position (such as highest transporting position or intermediate transportation position) reaches minimum transporting position down to it.Once sleeping
Bed 10 reaches its minimum altitude (such as minimum transporting position), and actuating can be automatically stopped.In some embodiments, casket 50 is controlled
Load terminal supporting leg 20 is provided and control terminal supporting leg 40 is movable during movement visually indicates.
In one embodiment, when bed 10 is in highest transporting position (Fig. 4 C), load terminal supporting leg 20 is filled in front
It carries and contacts braced frame 12 at mark 221, and control terminal supporting leg 40 loads at rear portion and contacts braced frame 12 at mark 241.
Although describing front loading mark 221 in Fig. 4 C and rear portion loading the centre for being located proximate to braced frame 12 of mark 241,
It is contemplated that other embodiment, wherein front loading mark 221 and rear portion load mark 241 and be located at along braced frame 12
Any position.For example, 10 being actuated into Desired Height by that will lie in bed and providing the needs that highest transporting position is arranged in instruction
Input (for example, press "+" and "-" button 56,60 simultaneously and kept for 10 seconds), can be set highest transporting position.
In another embodiment, whenever bed 10 is lifted to the period that highest transporting position or more reaches set
When (such as 30 seconds), control casket 50 is provided with bed 10 and has exceeded highest transporting position and the reduced finger of 10 needs of lying in bed
Show.The instruction can be visually indicate, audible indication, electronics instruction or combinations thereof.
When bed 10 is in minimum transporting position (Fig. 3 A), load terminal supporting leg 20 can be located proximate to braced frame 12
The flat mark 220 in front of rear end 19 contact braced frame 12, and control terminal supporting leg 40 can be located proximate to support frame
The flat mark 240 in the rear portion of the front end 17 of frame 12 contacts braced frame 12.Moreover, it is noted that term as used herein " mark
(index) " it is meant that the position for corresponding to mechanical stops or electric retainer along braced frame 12, such as side
The obstacle in channel, locking mechanism or the retainer controlled by servo mechanism formed in component 15.
Front actuators 16 can be operated so that the front end 17 of braced frame 12 to be raised and lowered independently of rear portion actuator 18.Afterwards
Portion's actuator 18 can be operated so that the rear end 19 of braced frame 12 to be raised and lowered independently of front actuators 16.By independently lifting
High front end 17 or rear end 19, when bed 10 is moved on uneven surface (such as step or slope), bed 10 can be incited somebody to action
Braced frame 12 keeps horizontal or substantial horizontal.Specifically, if in front actuators 16 or rear portion actuator 18 one
It is a to be in the second position relative to first position, then not contact surface this group of supporting leg (that is, this group of supporting leg of tension, such as when
When one end or one end of bed are lifted) by the activation of bed 10 (such as bed 10 is removed from curb).Bed 10 its
Its embodiment can be operated to be tuned into horizontality automatically.For example, pressing 56 meeting of the "+" button if rear end 19 is lower than front end 17
Rear end 19 is first increased to horizontal position before increasing bed 10, and pressing "-" button 60 can be before reducing bed 10
Front end 17 is first reduced to horizontal position.
In the one embodiment described in Fig. 2, bed 10 receives instruction front from front actuator sensor 62 and activates
The first position signal for the position of device 16 detected, and instruction rear portion actuator 18 is received from rear portion actuator sensor 64
The second position signal of the position detected.What first position signal and second position signal can be executed by control casket 50 patrols
Processing is collected, with the response for the input that determining bed 10 receives bed 10.Specifically, user's input can be input to control
In casket 50 processed.It receives user and inputs the control signal for allowing as instruction control casket 50 and changing the order of height of bed 10.Greatly
For body, when first position signal designation front actuators are in first position and second position signal designation rear portion actuator
When in the second position for being relatively different from first position (between the first and second predetermined relative locations of position instruction two away from
From, angle or position), front actuators actuating load terminal supporting leg 20 and rear portion actuator 18 be kept essentially stationary (such as
It is not activated).Therefore, when the only first position signal designation second position, loading can be increased by pressing "-" button 60
It holds supporting leg 20 and/or load terminal supporting leg 20 can be reduced by pressing the "+" button 56.By and large, when the second position, signal refers to
When showing the second position and first position signal designation first position, 18 actuation control end supporting leg 40 of rear portion actuator and front
Actuator 16 keeps substantially stationary (such as not being activated).Therefore, when the only second position signal designation second position, lead to
Control terminal supporting leg 40 can be increased and/or can reduce control terminal supporting leg by pressing the "+" button 56 by crossing pressing "-" button 60
40.In some embodiments, actuator can will be relatively slowly activate (that is, slow turn-on) relatively rapid after the initial movement
First mitigate being quickly pushed against to braced frame 12 before ground actuating.
Referring concurrently to Fig. 4 C to Fig. 5 E, embodiment as described herein can be used independent actuation and patient be loaded into haulagman
In tool (it should be noted that for the sake of clarity, not describing front actuators 16 and rear portion actuator 18 in Fig. 4 C to Fig. 5 E).Specifically
It says, bed 10 can be loaded into according to process described below and be loaded on surface 500.It is possible, firstly, to which bed 10 is positioned to
Height locating for highest transporting position (Fig. 3) or front loading runner 70 is greater than any position for loading surface 500.As general
When bed 10 is loaded on loading surface 500, before bed 10 being increased via front and rear actuator 16 and 18 to ensure
Portion loads runner 70 and is placed in 500 top of loading surface.In some embodiments, front actuators 16 and rear portion actuator 18 can
It is always maintained at level will lie in bed to activate simultaneously, until the height of bed is in predetermined position.Once reaching predetermined height
Degree, front actuators 16 can increase front end 17, so that bed 10 is angled in its highest " loaded " position.Therefore, bed 10 can
It is lower than front end 17 to be assembled into rear end 19.Then, bed 10 can contact down to front loading runner 70 and load surface
Until 500 (Fig. 5 A).
As described in Fig. 5 A, front loading runner 70 is being loaded above surface 500.In one embodiment, it is loading
After rotatable wheel contacts load surface 500, this can be activated with front actuators 16 to load terminal supporting leg 20, because front end 17 is filling
Carry 500 top of surface.If described in Fig. 5 A and Fig. 5 B, lie in bed 10 middle section leave load surface 500 (that is, bed 10
Sufficiently large part be not yet loaded beyond load edge 502 so that bed 10 most of weight can vacantly simultaneously
And supported by runner 70,26 and/or 30).When front loading runner is by enough loads, can be incited somebody to action with lesser amount of power
Bed 10 keeps horizontal.In addition, in this position, front actuators 16 are in the second position relative to first position, and after
Portion's actuator 18 is in first position relative to the second position.Thus, for example, if "-" button 60 is activated, load terminal branch
Leg 20 increases (Fig. 5 B).In one embodiment, preceding after load terminal supporting leg 20 has been raised to and is enough to trigger loading condition
The operation of portion's actuator 16 and rear portion actuator 18 depends on the position from actuating bed.In some embodiments, work as load terminal
When supporting leg 20 increases, is provided in the visual display assemblies of control casket 50 or GUI 58 and visually indicate (Fig. 2).Visually indicating can be with
With color coding (for example, the supporting leg of activation is green, unactivated supporting leg is red).When load terminal supporting leg 20 contracts completely
Hui Shi, this front actuators 16 can be automatically stopped operation.Moreover, it is noted that during load terminal supporting leg 20 retracts, it is preceding
Portion's actuator sensor 62 may detect the second position relative to first position, this when, front actuators 16 can be used
Faster speed increases load terminal supporting leg 20;Such as it is fully retracted in about 2 seconds.
Referring concurrently to Fig. 3, Fig. 5 B and Fig. 7, have been loaded on loading surface 500 in front loading runner 70 to assist inciting somebody to action
After bed 10 is loaded on loading surface 500, one or more processors 100 can activate rear portion actuator 18 automatically.Tool
It says to body, when front angular transducer 66 detects front angle αfWhen less than predetermined angular, one or more processors 100 can
With activate rear portion actuator 18 automatically with extend control terminal supporting leg 40 and by lie in bed 10 rear end 19 increase at be higher than original loading
Highly.Predetermined angular can be any instruction loading condition or extend the angle of percentage, such as in one embodiment
It is less than about the 10% of the extension of load terminal supporting leg 20, or be less than the extension of load terminal supporting leg 20 in another embodiment
About 5%.In some embodiments, one or more before actuating rear portion actuator 18 automatically is to extend control terminal supporting leg 40
Processor 100, which can determine, loads whether end sensor 76 indicates that front loading runner 70 is touching loading surface 500.
In a further embodiment, after one or more processors 100 can monitor rear portion angular transducer 68 to confirm
Portion's angle [alpha]bChange in the actuating according to rear portion actuator 18.In order to protect rear portion actuator 18, if rear portion angle [alpha]bInstruction
If misoperation, one or more processors 100 can stop the actuating of rear portion actuator 18 automatically.For example, if rear portion
Angle [alpha]bFail to change in the time (such as about 200ms) of predetermined amount, then one or more processors 100 can it is automatic in
The only actuating of rear portion actuator 18.
Referring concurrently to Fig. 5 A to Fig. 5 E, after load terminal supporting leg 20 has retracted, bed 10 can be pushed forward, directly
Runner 30 is loaded to centre to have been loaded on loading surface 500 until (Fig. 5 C).If described in Fig. 5 C, lie in bed 10 front end
17 and middle section load surface 500 above.Therefore, this can retract control terminal supporting leg 40 with rear portion actuator 18.
Specifically, ultrasonic sensor, which may be positioned such that, detects when that middle section is loading above surface 500.When the loading condition phase
Between middle section loading above surface 500 (for example, load terminal supporting leg 20 and control terminal supporting leg 40 have greater than loading condition angle
The angle delta of degree) when, rear portion actuator can activate.In one embodiment, when centre loads runner 30 enough beyond loading
When actuating of the edge 502 to allow control terminal supporting leg 40, control casket 50 (Fig. 2), which can provide instruction, (such as can provide audio
Buzzer).
It should be noted that the middle section of bed 10 is loading above surface 500, any of bed 10 can serve as fulcrum at this time
Part sufficiently exceed and load edge 502 control terminal supporting leg 40 is retracted, the amount of power that lifting rear end 19 needs subtracts
Few (such as the half that is less than of the weight for the bed 10 that can be loaded needs to be supported on rear end 19).Moreover, it is noted that by being located at
Sensor in bed 10 and/or the sensor on loading surface 500 or adjacent to loading surface 500 may be implemented to sleeping
The detection of the position of bed 10.For example, ambulance can have sensor, sensor detection bed 10 is relative to loading surface 500
And/or the positioning at edge 502 is loaded, and there is communication device to transmit information to bed 10.
Referring to Fig. 5 D, after the retraction of control terminal supporting leg 40, bed 10 can be pushed forward.In one embodiment,
During rear portion supporting leg retracts, it is unsupported that rear portion actuator sensor 64 can detecte control terminal supporting leg 40, this when, rear portion
Actuator 18 can increase control terminal supporting leg 40 with higher speed.When control terminal supporting leg 40 is fully retracted, rear portion actuator
18 can be automatically stopped operation.In one embodiment, when bed 10 is enough beyond loading (such as the fully loaded or dress of edge 502
Carry into and make rear portion actuator beyond loading edge 502) when, control casket 50 (Fig. 2) can provide instruction.
Once bed be loaded into load surface (Fig. 5 E) on, by releasedly lock/be connected to ambulance, can will before
Portion and rear portion actuator 16,18 deactivate.Ambulance and bed 10 can each be equipped with the component for being suitable for connection, such as
Male-female type connector.In addition, bed 10 may include sensor, when which, which lies in bed, is fully disposed in ambulance,
And signal is sent, which lock actuator 16,18.In another embodiment, it is tight to may be coupled to bed for bed 10
Firmware locks actuator 16,18, and is further coupled to the power-supply system of ambulance, which is that bed 10 is filled
Electricity.The commercial example of these ambulance charging systems is Ferno-Washington, the integrated form charging system of Inc production
(ICS)。
Referring concurrently to Fig. 5 A to Fig. 5 E, independent actuation as described above is can be used from load table in embodiment as described herein
The unloading bed of face 500 10.Specifically, bed 10 can unlock from fastener and be pushed (Fig. 5 E towards loading edge 502
To Fig. 5 D).When from surface 500 (Fig. 5 D) release rear portion runner 46 is loaded, rear portion actuator sensor 64 detects control terminal branch
Leg 40 is unsupported and allows to reduce control terminal supporting leg 40.In some embodiments, the reduction of control terminal supporting leg 40, example can be prevented
As if a sensor senses that bed not in correct position (for example, rear portion runner 46 load surface 500 above, Huo Zhezhong
Between load runner 30 far from load edge 502).In one embodiment, when the activation of rear portion actuator 18 (loads among such as and turns
Wheel 30 detects the second position relative to first position close to loading edge 502 and/or rear portion actuator sensor 64) when,
Control casket 50 (Fig. 2) can provide instruction.
Referring concurrently to Fig. 5 D and Fig. 7, one or more processors can activate line indicator 74 automatically to load surface
A line, the centre of equilibrium of instruction bed 10 are projected on 500.In one embodiment, one or more processors 100 can be from
Intermediate loads sensor 77 receives the intermediate input for loading runner 30 and load table face contact of instruction.One or more processors
100 can also receive instruction rear portion actuator 18 from rear portion actuator sensor 64 is in the second position relative to first position
Input.When centre loads, the contact of runner 30 loads surface and rear portion actuator 18 is in the second position relative to first position
When, one or more processors can make line indicator 74 project the line automatically.Therefore, it when projecting the line, can load
It provides and visually indicates to operator on surface, this visually indicates the references that may be used as loading, unloading or the two operations.Tool
It says to body, when the line, which approaches, loads edge 502, operator can slow down bed 10 from the removal for loading surface 500, in this way
The additional time be can permit to reduce control terminal supporting leg 40.Needed for the weight that the operation can make operator support bed 10
The time quantum wanted minimizes.
Referring concurrently to Fig. 5 A to Fig. 5 E, when bed 10 is oriented properly relative to loading edge 502, control terminal supporting leg 40
(Fig. 5 C) can be extended.In some embodiments, when rear portion actuator sensor 64 detects second relative to first position
When position, control terminal supporting leg 40 can be made relatively quickly to prolong with activating and regenerating fluid path 350 by opening logical valve 352
Stretch (Figure 12 A to Figure 12 D).For example, control terminal supporting leg 40 can be extended by pressing the "+" button 56.In one embodiment, when
When control terminal supporting leg 40 reduces, is provided in the visual display assemblies of control casket 50 or GUI58 and visually indicate (Fig. 2).For example, working as
Bed 10 can be provided and be visually indicated in loading condition and when control terminal supporting leg 40 and/or load terminal supporting leg 20 are activated.
This, which visually indicates to signal, should not move (for example, drawing, promotion or rolling) in activating bed.Work as control
When holding 40 contact base plate of supporting leg (Fig. 5 C), control terminal supporting leg 40 becomes to load, and rear portion actuator sensor 64 releases rear portion
The activation of actuator 18.
When sensor detects that load terminal supporting leg 20 does not contact loading surface 500 (Fig. 5 B), front actuators 16 are swashed
It is living.In some embodiments, when front actuator sensor 62 detects the second position relative to first position, load terminal
Supporting leg 20 can relatively quickly extend (Figure 12 A to figure by opening logical valve 352 with activating and regenerating fluid path 350
12D).In one embodiment, when centre, which loads runner 30, is in loading edge 502, control casket 50 can provide instruction (figure
2).Until load terminal supporting leg 20 extends to 20 contact base plate of load terminal supporting leg (Fig. 5 A).For example, can by pressing the "+" button 56
To extend load terminal supporting leg 20.In one embodiment, when load terminal supporting leg 20 reduces, in the visual display group of control casket 50
It is provided on part or GUI 58 and visually indicates (Fig. 2).
Referring concurrently to Fig. 7 and Fig. 8, the actuating of any operator's control 57 can be such that one or more processors 100 connect
Receive control signal.Control signal can be by being encoding to indicate that one or more of operator's control has activated.By
The control signal of coding can be associated with the bed function of pre-programmed.When receiving the control signal by coding, one
Or multiple processors 100 can be performed automatically bed function.In some embodiments, bed function may include door opening function,
It transmits opening signal to means of transport.Specifically, bed 10 may include telecommunication circuit 82, it is communicably coupled to one
Or multiple processors 100.Telecommunication circuit 82 may be configured to exchange communication with the means of transport of such as ambulance etc.
Signal.Telecommunication circuit 82 may include wireless communication device, such as (but not limited to) personal area network transceiver, local area network transmitting-receiving
Device, radio frequency identification (RFID), infrared transmitter, cellular transceiver etc..
The control signal of one or more of operator's control 57 can be associated with door opening function.When receive with
When the associated control signal of door opening function, one or more processors 100 can make telecommunication circuit 82 in opening signal model
Means of transport transmission opening signal in enclosing.When receiving opening signal, means of transport can open door to receive bed
10.In addition, opening signal can be by coding such as via classification, unique identifier etc. identification bed 10.Another
In outer embodiment, the control signal of one or more of operator's control 57 can be associated with shutdown function, closes the door
The mode of operation of function is similar with door opening function, and closes the door of means of transport.
Referring concurrently to Fig. 3, Fig. 7 and Fig. 8, bed function may include automatic flat-adjustable function, automatically will relative to gravity
Front end 17 and rear end 19 level.It therefore, can be with adjust automatically front angle αf, rear portion angle [alpha]bOr the two angles are to compensate not
Flat landform.For example, rear end 19 can be increased automatically relative to weight if rear end 19 is lower than front end 17 relative to gravity
Power will lie in bed 10 leveling, front end 17 can reduce automatically with relative to gravity will lie in bed 10 leveling or both operation.Phase
Instead, if rear end 19 is higher than front end 17 relative to gravity, rear end 19 can be reduced automatically to level bed 10 relative to gravity,
Front end 17 can be increased automatically relative to gravity leveling bed 10 or both operations.
Referring concurrently to Fig. 2 and Fig. 7, bed 10 may include gravity reference sensor 80, be configured to provide instruction ground
The gravity reference signal of ball referential.Gravity reference sensor 80 may include accelerometer, gyroscope, inclinator etc..Gravity
Reference sensor 80 can be communicably coupled to one or more processors 100, and be suitable for detection bed 10 relative to
The horizontal position of gravity (such as braced frame 12) is connected to bed 10.
The control signal of one or more of operator's control 57 can be associated with automatic flat-adjustable function.Specifically
It says, any operator's control 57 can transmit control signal associated with enabling or deactivating automatic flat-adjustable function.Or
Or in addition, other bed function property of can choose enable or deactivate bed levelling function.When enabling automatic flat-adjustable function, one
A or multiple processors 100 can receive gravity reference signal.One or more processors 100 can be automatically by gravity reference
Signal is compared with the terrestrial reference system of instruction earth level.Based on the comparison, one or more processors 100 can be with automatic measuring
Change the difference between the present level of the bed 10 of terrestrial reference system and gravity reference signal designation.The difference can be converted to
It is expected that regulated quantity is with the front end 17 and rear end 19 relative to gravity leveling bed 10.For example, the difference can be converted to front
Angle [alpha]f, rear portion angle [alpha]bOr the angular adjustment of the two angles.Therefore, one or more processors 100 can activate automatically
Dynamic device 16,18, until having realized desired regulated quantity, that is, front angle sensor 66, rear portion angle sensor can be used
Device 68 and gravity reference sensor 80 are fed back.
Referring concurrently to Fig. 1, Fig. 9 and Figure 10, one or more of front runner 26 and rear portion runner 46 may include using
In the runner sub-assembly 110 activated automatically.Therefore, although the runner sub-assembly 110 described in Fig. 9 is connected to connecting rod 27,
Runner sub-assembly can be connected to connecting rod 47.Runner sub-assembly 110 may include runner oriented module 112, for relative to sleeping
Bed 10 guides the direction of runner 114.Runner steering module 112 may include: control shaft 116, limit the rotation for guiding
Shaft 118;Steering mechanism 90 is used for actuation control shaft 116;And fork 121, limit the rotation for being used for runner 114
Axis 123.In some embodiments, control shaft 116 can be rotationally coupled to connecting rod 27, so that control shaft 116 surrounds
Rotary shaft 118 rotates.It can promote rotary motion by the bearing 124 being located between control shaft 116 and connecting rod 27.
Steering mechanism 90 can be operably linked to control shaft 116 and may be configured to around rotary shaft 118
Push control shaft 116.Steering mechanism 90 may include servo motor and encoder.Therefore, steering mechanism 90 can directly cause
Dynamic control shaft 116.In some embodiments, steering mechanism 90 may be configured to be freely rotated with bed 10 by promotion and
Allow to control shaft 116 when movement to turn round around rotary shaft 118.Optionally, steering mechanism 90 may be configured to locking in place,
And resist the movement that control shaft 116 surrounds rotary shaft 118.
Referring concurrently to Fig. 7 and Fig. 9 to Figure 10, runner sub-assembly 110 may include revolution locking module 130, for that will pitch
Shape object 121 is locked in substantially fixed direction.Turning round locking module 130 may include: screw component 132, be used for and lock
Buckle part 134 engages;Biasing member 136, to 132 biasing of screw component away from lock buckling part 134;And cable
138, for the transmission machine energy between locking actuator 92 and screw component 132.Locking actuator 92 may include servo horse
It reaches and encoder.
The channel that can be formed with connecting rod 27 accommodates screw component 132.Screw component 132 may be advanced in channel, make
Screw component 132 is obtained to be detached from from lock buckling part 134 and come out the interference position entered in lock buckling part 134 from channel.Bias
Component 136 can be by screw component 132 towards interference position bias.Cable 138 can be connected to screw component 132 and with lock
Determine actuator 92 to be operatively engaged, allows locking actuator 92 to transmit the power for being enough to overcome biasing member 136, and make
Screw component 132 is translated from interference position so that screw component 132 is detached from from lock buckling part 134.
In some embodiments, lock buckling part 134 can be formed in fork 121, or be connected to fork 121.
Lock buckling part 134 may include rigid bodies, form the aperture complementary with screw component 132.Therefore, screw component 132 can
To advance in lock buckling part via aperture and be come out from lock buckling part.Rigid bodies may be configured to interference lock buckling part
134 movement, the movement are surrounded caused by the movement of rotary shaft 118 as control shaft 116.Specifically, when in interference position
When setting middle, screw component 132 can be limited by the rigid bodies of lock buckling part 134, so that control shaft 116 is around rotation
The movement of axis 118 largely mitigates.
Referring concurrently to Fig. 7 and Fig. 9 to Figure 10, runner sub-assembly 110 may include brake module 140, for resisting runner
114 surround the rotation of rotary shaft 123.Brake module 140 may include: brake piston 142, for transmitting to Brake pad 144
Brake force;Biasing member 146 makes it away from runner 114 to 142 biasing of brake piston;And arrestment mechanism 94, to system
Piston 142 provides brake force.In some embodiments, arrestment mechanism 94 may include servo motor and encoder.Brake
Structure 94 can be operably linked to brake cam 148, so that the actuating of arrestment mechanism 94 can make brake cam 148 around rotation
Axis 151 rotates.Brake piston 142 can serve as cam follower.Therefore, the rotary motion of brake cam 148 can be converted
The linear movement of the linear movement of brake piston 142, brake piston 142 makes to brake according to the direction of rotation of brake cam 148
Piston 142 is mobile toward and away from runner 114.
Brake pad 144 can be connected to brake piston 142, so that fortune of the brake piston 142 toward and away from runner 114
It is dynamic that Brake pad 144 is made to engage and be detached from runner 114.In some embodiments, Brake pad 144 can be it is wavy with
The shape of the part for the runner 114 that Brake pad 144 contacts during braking matches.Optionally, the contact table of Brake pad 144
Face may include protruding portion and groove.
Referring again to Fig. 7, steering mechanism 90, locking each of actuator 92 and arrestment mechanism 94 can communicatedly join
It is connected to one or more processors 100.Therefore, any operator's control 57, which may pass through, encodes to provide control signal,
The control signal is operable so that any operation of steering mechanism 90, locking actuator 92, arrestment mechanism 94 or combinations thereof certainly
It is dynamic to execute.Alternatively or in addition, any bed function can make steering mechanism 90, locking actuator 92, arrestment mechanism 94 or its group
Any operation closed executes automatically.
Referring concurrently to Fig. 3 and Fig. 7 to Figure 10, any operator's control 57 can by coding to provide control signal,
The control signal is operable such that steering mechanism 90 activates fork 121 at outer fix (depicting dash line in Figure 10 as).
Alternatively or in addition, bed function (such as functions of seat) may be configured to selectively make steering mechanism 90 by fork 121
Activate into outer fix.When being arranged to outer fix, fork 121 and runner 114 can relative to bed 10 length (from
Direction of the front end 17 to rear end 19) it is vertically towards.Therefore, front runner 26, rear portion runner 46 or the two can be arranged to
Outer fix so that front runner 26, rear portion runner 46 or the two towards braced frame 12.
Referring concurrently to Fig. 8 and Figure 11 to Figure 12, bed function may include escalator function, be configured to lying in bed
10 make the patient's holding supported by patient support 14 horizontal while support by escalator.Therefore, any operator
Member's control 57 can be by coding to provide control signal, which is operable such that elevator functions are activated, release and swash
Living or the two.In some embodiments, escalator function, which may be configured to will to lie in bed, 10 is oriented so that patient is multiplying
Row escalator 504 or downlink escalator 506 are taken relative to escalator slope in the same direction.Specifically,
Escalator function may insure the rear end 19 of bed 10 towards the downward of uplink escalator 504 and downlink escalator 506
Slope.In other words, bed 10 can be configured so that the rear end 19 of bed is finally loaded in uplink escalator 504 or downlink
On escalator 506.
Referring now to Figure 13, elevator functions can be implemented according to method 301.Although should be noted that plotting method 301 in Figure 13
Including multiple cited processes, but any process of method 301 can be performed in any order or ignore method 301
Any process, but without departing from the scope.At process 303,10 braced frame 12 of lying in bed can be retracted.One
In a little embodiments, it is to retract that bed 10, which may be configured to the first automatic braced frame 12 that detects before continuing elevator functions,.
Alternatively or in addition, bed 10 may be configured to retract braced frame 12 automatically.
Referring concurrently to Fig. 7, Fig. 8, Figure 11 and Figure 13, bed can be loaded on uplink escalator 504.The hand steered electricity of uplink
Ladder 504 can form elevator slope θ relative to the platform immediately in 504 front of uplink escalator.In process 305, front turns
Wheel 26 can be loaded on uplink escalator 504.It, can be with when front runner 26 to be loaded on uplink escalator 504
Actuating increases button 56.It, can be by one or more from the control signal for increasing the transmitting of button 56 when escalator function comes into force
A processor 100 receives.In response to from the control signal for increasing the transmitting of button 56, one or more processors can execute machine
Readable instruction to activate the arrestment mechanism 94 automatically.Therefore, front runner 26 can be locked to prevent front runner from rolling.Work as liter
When the high holding of button 56 comes into force, one or more processors can make visual display assemblies provide instruction load terminal supporting leg 20 automatically
The image to come into force.
In process 307, increasing button 56 can keep coming into force.In response to from increase button 56 emit control signal, one
A or multiple processors can execute machine readable instructions with automatic activation bed levelling function.Therefore, bed leveling (equilibrium)
Function can activate load terminal supporting leg 20 dynamically to adjust front angle αf.Therefore, uplink is gradually pushed in bed 10
When on escalator 504, front angle αfIt can change so that braced frame 12 keeps substantial horizontal.
In process 309, after loading rear portion runner 46 on uplink escalator 504, it can will increase button 56 and release
Activation.In response to from increase button 56 emit control signal, one or more processors can execute machine readable instructions with
Automatically the arrestment mechanism 94 is activated.Therefore, rear portion runner 46 can be locked to prevent rear portion runner 46 from rolling.The runner 26 in front
In the case where being loaded on uplink escalator 504 with rear portion runner 46, the adjustable front angle α of bed levelling functionfWith
It is matched with escalator angle, θ.
In process 311, when runner 26 approaches the end of uplink escalator 504 in front, it can activate and increase button 56.
In response to from the control signal for increasing the transmitting of button 56, one or more processors can execute machine readable instructions to cause automatically
Move the arrestment mechanism 94.Therefore, front runner 26 can be unlocked to allow front runner 26 to roll.When front runner 26 leaves
When row escalator 504, bed levelling function can dynamically adjust front angle αfSo that the braced frame 12 of bed 10 is protected
Water holding is flat.
In process 313, one or more processors 100 can automatically determine the position of load terminal supporting leg 20.Therefore, when sleeping
When uplink escalator 504 is left in the front end 17 of bed 10, front angle αfIt can achieve predetermined angular, such as (but not limited to) it is right
It should be in the fully extended angle of load terminal supporting leg 20.When reaching predeterminated level, one or more processors 100 can be executed
Machine readable instructions to activate the arrestment mechanism 94 automatically.Therefore, rear portion runner 46 can be unlocked to allow rear portion runner 46 to roll
It is dynamic.Therefore, when the rear end 19 of bed 10 reaches the end of uplink escalator 504, bed 10, which can roll, leaves uplink hand
Help elevator 504.It in some embodiments, can be by escalator mode release by one in actuating operator's control 57
Activation.Alternatively or in addition, after the unlock of rear portion runner 46, it can be in predetermined amount of time (such as about 15 seconds) by elevator mould
Formula deactivation.
Referring concurrently to Fig. 7, Fig. 8, Figure 12 and Figure 13, bed 10 can be with similar to loading on uplink escalator 504
Mode loaded on downlink escalator 506.In process 305, rear portion runner 46 can be loaded in downlink escalator 506
On.After rear portion runner 46 is loaded on downlink escalator 506, can activate reduces button 60.In escalator function
When can come into force, it can be received from the control signal that button 60 emits is reduced by one or more processors 100.In response to from reduction
The control signal that button 60 emits, one or more processors can execute machine readable instructions to activate the arrestment mechanism automatically
94.Therefore, rear portion runner 46 can be locked to prevent rear portion runner 46 from rolling.When reduce button 60 holding come into force when, one or
Multiple processors can make visual display assemblies provide the instruction image that load terminal supporting leg 20 comes into force automatically.
In process 307, reducing button 60 can keep coming into force.In response to from reduce button 60 emit control signal, one
A or multiple processors can execute machine readable instructions with automatic activation bed levelling function.Therefore, bed levelling function can
To activate load terminal supporting leg 20 dynamically to adjust front angle αf.Therefore, the hand steered electricity of downlink is gradually pushed in bed 10
When on ladder 506, front angle αfIt can change so that braced frame 12 keeps substantial horizontal.
In process 309, after front runner 26 is loaded on downlink escalator 506, button 60 can will be reduced
Deactivation.In response to from the control signal for reducing the transmitting of button 60, one or more processors 100 can execute machine readable
Instruction to activate the arrestment mechanism 94 automatically.Therefore, front runner 26 can be locked to prevent front runner 26 from rolling.In front
In the case that runner 26 and rear portion runner 46 are loaded on downlink escalator 506, the adjustable front angle of bed levelling function
Spend αfTo be matched with escalator angle, θ.
In process 311, when rear portion runner 46 approaches the end of downlink escalator 506, can activate reduces button 60.
In response to from the control signal for reducing the transmitting of button 60, one or more processors can execute machine readable instructions to cause automatically
Move the arrestment mechanism 94.Therefore, rear portion runner 46 can be unlocked to allow rear portion runner 46 to roll.When rear portion runner 46 leaves down
When row escalator 506, bed levelling function can dynamically adjust front angle αfSo that the braced frame 12 of bed 10 is protected
It holds substantial horizontal.
In process 313, one or more processors 100 can automatically determine the position of load terminal supporting leg 20.Therefore, when sleeping
When downlink escalator 506 is left in the rear end 19 of bed 10, front angle αfIt can achieve predetermined angular, such as (but not limited to) it is right
It should be in the fully extended angle of load terminal supporting leg 20.When reaching predeterminated level, one or more processors 100 can be executed
Machine readable instructions to activate the arrestment mechanism 94 automatically.Therefore, front runner 26 can be unlocked to allow front runner 26 to roll
It is dynamic.Therefore, when the front end 17 of bed 10 reaches the end of downlink escalator 506, bed 10, which can roll, leaves downlink hand
Help elevator 506.It in some embodiments, can be in predetermined amount of time (such as about 15 seconds) after unlocking front runner 26
It is middle to activate elevator mode release.
Referring concurrently to Fig. 4 B, Fig. 7 and Fig. 8, bed function may include CPR (CPR) function, can operate with
Bed 10 is automatically adjusted to the ergonomics position for allowing medical worker to execute effective CPR in the case where generation cardiac arrest.Appoint
What operator's control 57 can be operable such that CPR function is activated, deactivates by coding to provide control signal
Or the two.It in some embodiments, can be with when bed is in ambulance, when being connected to bed fastener or both of these case
Automatically CPR function is deactivated.
After activating CPR function, control signal can be emitted to one or more processors 100 and by one or more
A processor 100 receives.In response to controlling signal, one or more processors can execute machine readable instructions to activate automatically
The arrestment mechanism 94.Therefore, front runner 26, rear portion runner 46 or the two can be locked to prevent bed 10 from rolling.Bed
10, which may be configured to offer, has activated the audio of CPR function to indicate.In addition, the height of the braced frame 12 of bed 10 can be delayed
Slowly be adjusted to intermediate transportation position (Fig. 4 B), this intermediate transportation position correspond approximately to 12 inches (about 30.5cm) with about
(such as height of seat, sofa are high for the substantially horizontal height for bestowing CPR between 36 inches (about 91.4cm)
Degree) or any other predetermined altitude for being suitable for bestowing CPR.In some embodiments, one in operator's control 57 or
It is multiple to may be configured to lock or unlock front runner 26, rear portion runner 46 or the two.Activate operator's control 57 with
Can automatically CPR function be deactivated by locking or unlocking front runner 26, rear portion runner 46 or the two.Therefore, via drop
Low button 60 and the normal operating for increasing 56 pairs of button beds 10 can restore.
Referring concurrently to Fig. 3, Fig. 7 and Fig. 8, bed function may include extracorporeal membrane oxygenation (ECMO) function, can operate with
To lie in bed during the operation of bed 10 10 front end 17 is automatically maintained at the height higher than rear end 19.Activation ECMO function it
Afterwards, control signal can be emitted to one or more processors 100 and be received by one or more processors 100.In response to
Signal is controlled, one or more processors 100 can execute machine readable instructions and lock actuator 92 with automatic actuating.Therefore,
It can prevent front runner 26, rear portion runner 46 or the two revolution or turn to.In addition, front angle αf, rear portion angle [alpha]bOr this
The two may be adjusted so that braced frame 12 is in the scheduled oblique angle that dips down from front end 17 to rear end 19.The realization side of adjusting
Formula may be substantially similar to bed levelling function, and difference is that braced frame 12 relative to gravity is adjusted to the oblique angle that dips down, and
It is horizontal without respect to gravity.In addition, can be used reduces button 60 and raising button 56 when ECMO function is activated
To adjust the average height of braced frame 12, while the oblique angle that dips down is maintained automatically.After by ECMO function deactivation, bed
10 can be with enabling.
Referring concurrently to Figure 14 A and Figure 14 B, 10 embodiment of lying in bed may include patient support 400, for lying in bed
Patient is supported on 10.In some embodiments, patient support 400 can be connected to the braced frame 12 of bed 10.Patient
Support member 400 may include head support portion 402, be used to support back and head and neck and the foot of patient
Support section 404 is used to support the limbic areas of patient.Patient support 400 can further comprise middle section 406, position
Between head support portion 402 and foot rests 404.Optionally, patient support 400 may include supporting pad
408, allow patient to feel comfortable for providing buffering.Supporting pad 408 may include outer layer, by for biofluid and material not
The material to react is formed.
Referring now also to Figure 14 A and Figure 14 B, patient support 400 can be operated with the branch relative to bed 10
Support frame frame 12 is pivotally connected.For example, head support portion 402, foot rests 404 or the two can be relative to braced frames 12
Rotation.Adjustable head support portion 402 is suffered from increasing relative to flat position (that is, substantially parallel with braced frame 12)
The trunk of person.Specifically, head bias angle θ can be limited between braced frame 12 and head support portion 402H.With
Head support portion 402 is rotated away from braced frame 12, head bias angle θHIt can increase.In some embodiments, head is inclined
Move angle θHIt can be limited to the maximum angle of substantially acute angle, such as in one embodiment be about 85 °, or another
It is about 76 ° in a embodiment.Adjustable foot rests 404 with relative to flat position (that is, substantially with support frame
Frame 12 is parallel) increase the limbic areas of patient.Foot's offset can be limited between braced frame 12 and foot rests 404
Angle θF.As foot rests 404 are rotated away from braced frame 12, foot deviation angle θFIt can increase.In some embodiments
In, foot deviation angle θFIt can be limited to the maximum angle of substantially acute angle, such as in one embodiment be about 35 °,
In another embodiment it is about 25 °, or is in another embodiment about 16 °.
Referring concurrently to Fig. 1 and Figure 14, bed 10 may be configured to activate automatically into sitting posture " loaded " position (or hereinafter
Also referred to as " seat position ").Specifically, front actuators 16 can activate load terminal supporting leg 20, rear portion actuator 18 can be with
Actuation control end supporting leg 40 or front actuators 16 and rear portion actuator 18 can be activated with the front end relative to bed 10
17 reduce the rear end 19 of bed 10.It, can be in braced frame 12 and substantially horizontal table when the rear end 19 of bed 10 reduces
Sitting posture is formed between face 503 loads angle [alpha].In some embodiments, sitting posture, which loads angle [alpha], can be limited to substantially that acute angle is most
Wide-angle, such as in one embodiment about 35 °, about 25 ° in another embodiment, or in another implementation
It is about 16 ° in example.In some embodiments, sitting posture load angle [alpha] can substantially with foot deviation angle θFIt is identical, so that suffering from
The foot rests 404 of person's support member 400 are arranged essentially parallel to horizontal surface 503.
It can be by patient before the 10 automatic actuatings that will lie in bed are at sitting posture " loaded " position referring again to Figure 14 A and Figure 14 B
The head support portion 402 and foot rests 404 of support member 400 lift off braced frame 12.In addition, front runner
26 and rear portion runner 46 can be towards essentially similar direction.Once alignment, front runner 26 and rear portion runner 46 can be locked
It is scheduled on position.In some embodiments, bed 10 may include input terminal, is configured to reception and loads bed actuating at sitting posture
The order of position.For example, visual display assemblies or GUI 58 may include touch screen input terminal, for receiving sense of touch input.Or
Person or in addition, various other buttons or audio input end may be configured to receive activates bed 10 at sitting posture " loaded " position
Order.
Once control casket 50 receives the order, so that it may which bed 10 is arranged to sitting posture " loaded " position (seat position) mould
Formula.In some embodiments, bed 10 can be activated into after entering sitting posture " loaded " position mode without additional input automatically
Sitting posture " loaded " position.Alternatively, bed 10 may need additional input before moving to sitting posture " loaded " position.For example,
When in sitting posture " loaded " position mode, by pressing "-" button 60 (Fig. 2), the rear end 19 of bed 10 can be reduced.In addition
Embodiment in, can be limited to sitting posture " loaded " position mode application time to limit the mode and be kept for total time for coming into force.Cause
This, when expiring in the time limit, sitting posture " loaded " position mode can automatically terminate activation, in one embodiment, time limit such as example
About 60 seconds in this way, about 30 seconds in another embodiment, or be in a further embodiment about 15 seconds.More into one
In the embodiment of step, when entering sitting posture " loaded " position mode, instruction bed 10 can be provided in sitting posture " loaded " position mode
Confirmation, such as visually indicating in audible indication or visual display assemblies or GUI 58.
Referring now to Figure 15, in another embodiment, bed 10 (generally describing in block diagram) includes airborne, networking
Bed control system is generally indicated by reference to symbol 1000.Bed control system 1000 makes it possible to pass electronic information
It send to the various electronic control circuits or digitial controller that are arranged in bed 10, and from these electronic control circuits or digital control
Device receives electronic information.It will be appreciated that digitial controller can be individually microprocessor or microcontroller, such as (figure of processor 100
7) comprising central processing unit, memory and other function element are provided entirely in single semiconductor substrate, either
The integrated circuit of specialized operations disclosed below is provided.Although additionally it should be appreciated that the specific disclosed implementation of controller
Example is using the processor and/or specific integrated circuit by programming, but these devices can be used discrete device and implement, or
Person uses any simulation or mixed corresponding integrated circuit comprising the logic or Software implementations (example of any of these devices
Such as emulation).
In some embodiments, bed control system 1000 is equipped with one or more controllers, (for example) electric machine controller
1002, graphic user interface (GUI) controller 1004, and/or battery unit or controller 1006.Those skilled in the art
It should be understood that the number of controller can (such as one or more processors that Fig. 7 describes less than controller shown in Figure 15
100) or it is more.It should also be clear that the number of the controller in Figure 15 is arbitrary, and only describe for illustrative purpose
The dedicated functions of each controller.That is, in some embodiments of bed 10, the dedicated functions of each controller can be with
Change and/or with other controller combinations and/or remove.For example, in one embodiment, bed control system 1000 has extremely
A few controller, sensor, user's display unit, battery unit 1006 and wireline communication network 1008, the wire net
Network 1008 is configured to transmit message between at least one controller, sensor, user's display unit and battery unit.One
In a embodiment, battery unit 1006 is the battery management system integrated with battery pack (that is, battery), and battery pack is mentioned to bed 10
For portable power, wherein battery management system controls the charging and discharging of battery pack, and via communication network and at least one
A controller communication.
In other embodiments, various controllers 1002,1004,1006 can communicatedly connect via cable network 1008
It connects, which is such as controller zone network (CAN), LONWorks network, LIN network, RS-232 net
Network, Firewire network, DeviceNet network or offer are used for the communication system of the communication between these electronic control circuits
The network or fieldbus of any other type.Regardless of the concrete type of cable network 1008, physical network nodes (that is,
It is attached to bed control system 1000 and can be filled via the active electronic of the transmission of cable network 1008, reception or forwarding information
Set or circuit) and electronic control circuit (controller) between there may be wire link, the electronic control circuit (controller) warp
It crosses and programs and/or design to control the movement of at least supporting leg actuator of bed, and optionally control bed driving and/or height
Spend the illumination of indicator light, the locking and unlocking of wheel lock, unlock, data record and the error monitoring of external bed fastener, correction
It is transmitted with signal.
Each physical network nodes generally include circuit board, which includes control user interface, one or more causes
Electronic device required for dynamic device, one or more sensors and/or one or more of the other electric component, and allow each
Node communicates required related electronic devices in bed control system 1000.For example, in Figure 15, bed control system
First node in 1000 can be one or more motors, actuator and/or each movable castor for controlling bed 10
Lock (brake) ((for example) actuator 16,18, steering mechanism 90, locking actuator 92 and/or arrestment mechanism 94 (Fig. 1 and figure
7) electric machine controller 1002).Electric machine controller 1002 includes that controller is allowed to use cable network 1008 and any other
Related electronic devices required for net electronic device communicates.In one embodiment, one or more processors can be specifically real
It applies as electric machine controller 1002.
GUI controller 1004 can be second node, be configured to control graphic user interface 1005, and at one
It can be specifically embodied as control casket 50 in embodiment, which is equipped with visual display assemblies or GUI 58, that is, is used as user
Display unit.Graphic user interface 1005 may include one or more buttons or switch etc., such as array of buttons 52 and/or
Any one button in 54 (Fig. 8) or it may include touch screen or other such devices: the device is for allowing patient
Or caregiver controls the one or more aspects and Output Display Unit of bed 10, it is anti-with the visual/graphical for providing bed state
Feedback is exported also from the respective audio and/or sense of touch of included audio and/or sense of touch output generating means.GUI controller
1004 include phase required for allowing GUI controller 1004 to communicate using cable network 1008 with any other networked electronic device
Close electronic device.
Third node in bed control system 1000 can be the one or more for controlling bed 10 and be based on battery
Electric supply battery unit or controller 1006.Battery controller 1006 equally includes that 1006 use of controller is allowed to have
Gauze network 1008 communicates required related electronic devices with any other networked electronic device.In other embodiments, it lies in bed
Other nodes in control system 1000 are (for example) to may be coupled to cable network 1008 and/or be directed into any controller
1002,1004 and 1006 one or more sensors.
In the illustrated embodiment, the correspondence output end of sensor described below is connected to the defeated of electric machine controller 1002
Enter end.One or more of sensors may include one or more position sensors 1010, for detecting the group of bed 10
Relative position/orientation of part, such as load terminal supporting leg and control terminal supporting leg are in the open position (that is, bed passes through associated leg
It is increased to above its extreme lower position), or closed position is in (that is, associated leg is in its extreme lower position, so that bed be set
In its extreme lower position).One or more sensors may also include one or more temperature sensing sensors 1012, for detecting electricity
The operation temperature of machine.One or more of sensors may include one or more proximity sensors 1014 and/or 1016, use
In detection bed 10 first assembly relative to external support surface (such as transport pod of ground or first aid means of transport) and/or
The location/position of another component relative to bed, such as detect it is intermediate load the degree of approach of the wheel from another outer surface and
Relative bearing of operator's (control terminal) supporting leg actuator bracket from support frame.One or more of sensors may include
One or more angular transducers 1018, the angular orientation of the one or more components for detecting bed 10, such as load terminal branch
The angle of leg and control terminal supporting leg.One or more of sensors may include one or more detection sensors 1020, use
In the degree of approach and/or connection of detection and the external bed fastener being such as set in first aid means of transport.It is one or
Multiple sensors may include one or more voltage sensing sensors 1022, for detecting the voltage of such as charging voltage.It answers
Understand, in the illustrated embodiment, electric machine controller 1002 be responsible for processing these sensors 1010,1012,1014,1016,
1018,1020 and/or 1022 output, and the message comprising the information sensed is forwarded to via cable network 1008 sleeping
Other networked electronic devices of such as controller 1004 and 1006 in bed control system 1000.
In another embodiment, lie in bed 10 bed control system 1000 can also include wireless controller 1024, warp
Other controllers 1002,1004 and 1006 are networked to by cable network 1008, at least to mention as needed to wireless external receiver
Message and any other message transmitted via cable network 1008 for forwarding.For example, when hospital begins to use music to help
It helps when relieving pain, music player application program 1009 can be loaded in GUI controller 1004, via wireless controller
1024 is synchronous with hospital network, and plays via hospital network transmission/identical music of broadcast/stream transmission.It is real herein
Apply in example, operator can be used GUI 1005 operate music player application program 1009 (with when needed automatically with doctor
Institute's music system is synchronous, stops, selecting, change etc.), and pass through audio tweeter using the volume control being arranged in bed 10
1011 play music.It if necessary, can also the choosing from memory 102 (Fig. 7) by music player application program 1009
It selects and plays a series of preloading music.It will be appreciated that wireless controller 1024 includes wireless transceiver 1126 and/or electronically joins
It is connected to wireless transceiver 1126, wireless transceiver 1126 provides the wireless communication link 1028 for arriving wireless external receiver 1030.
Wireless communication link 1028 can be bluetooth connection, ZigBee connection, RuBee connection, WiFi (IEEE 802.11) connection, red
(IR) connection or the connection of any other suitable wireless communication outside.
Bed 10 have multiple modes of operation, wherein five kinds (5) be operator selection motorized motions operation mode: call out
It wakes up, directly power-two kinds of supporting legs, direct power supply-load terminal supporting leg mode, direct power supply-control terminal supporting leg mode and seat position
Set mode.In one embodiment, this five kinds of (5) modes can via button 53 and/or via array of buttons 52 and/or 54 from
GUI 1005 is selected, and in another embodiment, can be selected from control casket 50.GUI 1005 can provide working as about bed 10
The vision and/or auditory cues of preceding operation pass through such as when bed operates in the electric model that bed 10 is raised and lowered
Loudspeaker 1011 aurally says " raising " or " reduction ".The motorized motions operation mould of five kinds of operator's selections is discussed herein below now
Formula.
" wake-up " mode be lie in bed 10 complete operation mode, which allows the only of control terminal supporting leg and load terminal supporting leg
Vertical supporting leg is mobile.According to the state of bed 10, one or two kinds of supporting legs can be to "+/ raising/extension " and " -/reduction/retraction "
Operator's control button 1035,1037 is made a response, operator's control button 1035,1037 respectively can (for example) via
User interface 1039 provides.User interface 1039 may also include electric power control 1041, (for example) button, toggle switch, selector
Etc., with operator commands be switched on or switched off bed 10 bed control system 1000 electric power when provide " open/be powered "
(" pass/power-off ").Electric power control 1041 is manipulated so that bed control system 1000 is opened to active states (that is, awakening mode)
Supply voltage (PWR) signal can be sent to electric machine controller 1002.The alternatively device of control button 1035,1037 can also be provided
Toggle switch selector position or throw position, can such as pass through the button 56 described in Fig. 8,60, array of buttons 52
And/or 54 provide.In addition, in other embodiments, can be used as control casket 50 (Fig. 1) integration section or with control casket 50
(Fig. 1) is provided separately GUI controller 1004, GUI 1005 and/or user interface 1039.
Direct powering mode allows operator directly (and independent via user interface 1039 and/or GUI 1005
Ground) control bed supporting leg movement.For example, operator can independently control by selecting one of direct powering mode
One group or two groups of supporting legs to increase, reduce, loading or unloading bed.In following direct powering mode, bed 10 will not make
It is determined with its any sensor in response to one of operator's control button 1035,1037 (such as raising button 56 or drop
Low button 60) button press which leg should be moved.It is following that " directly-two kinds of supporting legs of power supply " mode allows operator to pass through
Mode directly to control and load supporting leg motor power supply: with the direct powering mode button (button on (for example) GUI 1005
Button and/or button 53 in array 52) selection "-two kinds of supporting legs of direct powering mode ", then press raising/extension operator
Member's control ("+") button 1035 or retraction/reduction operator control ("-") button 1037, regardless of other sensor values.
" direct power supply-load terminal supporting leg mode " allows operator by pressing the "+" button 1035 or "-" button 1037 directly to dress
The power supply of end (loading) supporting leg motor is carried, regardless of other sensor values." direct power supply-control terminal supporting leg mode " allows to operate
Personnel are powered by pressing the "+" button 1035 or "-" button 1037 directly to control terminal (operator) supporting leg motor, regardless of it
How is its sensor values." seat position mode " allows operator to be easy bed 10 being moved to a position, in this position
In setting, keep patient surface angled, to allow patient to be easier to be sitting in bed, the part of front such as above is referring to Figure 13 and figure
14 are explained in greater detail.Bed 10 can be set with single loading height, this loading height can be loaded into all with bed
Such as the matched in external support surface (the (for example) bottom plate of means of transport) above the ground.When operator is using
When the "+" button 1035 increases bed 10, bed 10 will be automatically stopped in this height.It will be appreciated that in every kind of direct powering mode
In, after bed is placed in specific direct powering mode by operator, time (such as 15 second) of the count-down device from predetermined amount
Countdown.If after selecting direct powering mode operator be not carried out further movement (that is, push button 1035 or
A button in 1037), then electric machine controller 1002 reverts to its standard operation mode after count-down device expires.Some
In embodiment, the graph image for showing count-down device 59 (Fig. 8) and corresponding counts can be provided on GUI 1005.
" suspend mode " is the state of reduction power consumption of the bed 10 in the period in suspend mode." manual operation " is used for
Bed supporting leg is retracted in the case where without Electronic control.Manual operation is deposited independently of the operation of any electric machine controller or input signal
?.Electric machine controller 1002, which will be unaware that, has executed manual operation, and its performance is completely just as being not carried out manual operation one
Sample.The no software requirement of operation in this mode.When the bed such as provided by one of array of buttons 52 or 54 (Fig. 8)
Electric power control 1041 is in the closed position/state (" close pattern ") when, electric machine controller 1002 powers off (pass), and GUI
1005 display, position instruction object and driving lamp 1032,1034 and loading and control terminal solenoid actuator 1036,1038
No power.Operation in this mode is also without software requirement.When bed 10 is connected to charger 1040 to charge the battery
When use " charge mode ", detected by charging voltage sensor 1022.Graphic diagram can be provided to GUI 1005 or 58
As with show battery 1007 relevant voltage/charge level and battery currently whether visually indicating in charging, (for example) pass through
By cell voltage/charge level graph image 61 (Fig. 8) color change and/or pulsation etc..It will be appreciated that charger is in bed 10
Outside, and may be coupled to the outlet in first aid means of transport, or be directly connected to the electric system of vehicle.In other realities
It applies in example, (can not schemed by the bed fastener that bed fastener detection sensor 1020 detects when bed 10 is docked to
Show) in when, the vehicle-mounted control of wireless remote (not shown) can become to come into force, for control bed supporting leg extension and retraction,
This control is to receive via by wireless controller 1024 and be sent to electric machine controller 1002 to be used for via wired
Network 1008 executes the command messages of (if desired).
Referring to Figure 16, the communication information sending and receiving agreement for electric machine controller 1002 is shown in figure, be shown from
The information that electric machine controller 1002 is provided via cable network 1008.According to every of agreement message by header frame, byte number
Frame and data frame are constituted, and header frame indicates cradle and the type of the message provided via bed control system 1000, byte number
Length of the frame instruction for the message of message error detection.Data frame in message from electric machine controller 1002 may include
B1, B2, C1 bottom plate condition bit, C2 bottom plate condition bit, D1, D2, wake up position, position of turning off the light, record position, charging voltage are deposited
In place, turn on light position, fastener check bit, USB activity bit, A1 extension bit, A2 extension bit, motor status position, voltage zone meta position,
The electric machine controller error code position and/or.
When the "+" button 1035 is pressed, it is arranged B1 by electric machine controller 1002, and via cable network 1008
Broadcast B1.When "-" button 1037 is pressed, it is arranged B2 by electric machine controller 1002, and via cable network
1008 broadcast B2.When the C1 bottom plate condition bit of input code signal is arranged, C1 bottom plate is arranged by electric machine controller 1002
Condition bit, and C1 bottom plate condition bit is broadcasted via cable network 1008.In the C2 bottom plate condition bit of setting input code signal
When, C2 bottom plate condition bit is arranged by electric machine controller 1002, and broadcast C2 bottom plate condition bit via cable network 1008.?
When setting D1 (upon closing), it is arranged D1 by electric machine controller 1002, and broadcasts D1 via cable network 1008.?
When setting D2 (upon closing), it is arranged D2 by electric machine controller 1002, and broadcasts D2 via cable network 1008.When
When operation mode is wake-up or charging, or if (even if when electric machine controller 1002 is in when " button blocks mistake " comes into force
When suspend mode), it is arranged also by electric machine controller 1002 and wakes up position and via 1008 broadcast wakeup position of cable network.In electricity
When cell voltage is less than lamp minimum voltage threshold value, position of turning off the light is arranged by electric machine controller 1002, and via cable network 1008
Broadcast position of turning off the light.In one embodiment, lamp minimum voltage threshold value is 5 volts, but can via change configuration file 1106 or
This value collection in script 1100 (Figure 19) and be arranged to any other expectation voltage level.When electric machine controller is configured to remember
When recording removable flash card ((for example) such as memory stick, SD card, compact flash etc.), it is arranged by electric machine controller 1002
Position is recorded, and via 1008 broadcast recoding position of cable network.
When electric machine controller detects non-zero voltage (Charge+) via charging voltage sensor 1022, pass through motor
Charging voltage is arranged in controller 1002, and there are positions, and there are positions via the broadcast of cable network 1008 charging voltage.Via pressing
Remote signal that the button of button array 52 and/or 54 and/or the order lamp received via wireless controller 1024 are opened and order
When lamp being enabled to open, position of turning on light is arranged by electric machine controller 1002, and broadcast position of turning on light via cable network 1008.Work as software
When utility is connected to controller (such as programming, diagnosing, update), it is living that USB is arranged by electric machine controller 1002
Dynamic position, and USB activity bit is broadcasted via cable network 1008.By electric machine controller 1002 be arranged A1 extend (32) and
A1 extension is broadcasted via cable network 1008 to indicate the elongation of loading (load terminal) supporting leg actuator rod.A1 extends with mil
For unit expression, range is from 0 to 18000, wherein 0 mil is to be fully retracted, 18000 mils are fully extended.Pass through motor
Controller 1002 is arranged A2 and extends (32) and broadcast A2 extension via cable network 1008 to indicate operator's (control
End) supporting leg actuator rod elongation.A2 extension is expressed as unit of mil, and range is from 0 to 18000, wherein 0 mil has been
Full reduced time, 18000 mils are fully extended.
It (is 32 in one embodiment, in other embodiments that motor status position, which is arranged, by electric machine controller 1002
It is other desired bit lengths), and motor status position is broadcasted via cable network 1008 with current with following counting indicator
Motor status: 0=motor status 0;1=motor status 1;2=motor status 2;3=motor status 3;4=motor status 1-;5
=motor status 2-;6=motor status 3-;7=motor status 4;8=motor status 5;9=motor status 6;10=motor shape
State 7;11=motor status 8;And 12=motor status 9.These motor status hereafter are discussed in more detail in subsequent part
In every kind of motor status.Locked any situation mobile for supporting leg, electric machine controller 1002 will be to GUI controller 1004
Report motor status 0 with the instruction for display 1005.Voltage zone meta position is set (in a reality by electric machine controller 1002
Applying in example is 32, is other desired bit lengths in other embodiments) and voltage zone is broadcasted via cable network 1008
Meta position is to indicate current voltage section.When detecting electric machine controller error code position, it is arranged by electric machine controller 1002
Electric machine controller error code position (being 64 in one embodiment, be other desired bit lengths in other embodiments),
And electric machine controller error code position is broadcasted via cable network 1008.It is discussed in more detail in subsequent part and causes to provide
The condition of particular motor controller error code.
Referring to Figure 17, the communication information sending and receiving agreement for battery controller 1006 is shown in figure, be shown from
The information that battery controller 1006 is provided via cable network 1008.According to every of agreement message by header frame, byte number
Frame and data frame are constituted, and header frame indicates cradle and the type of the message provided via bed control system 1000, byte number
Length of the frame instruction for the message of message error detection.Data frame in message from battery controller 1006 may include
Charge position is full of current potential, battery error code position, high-temperature position, battery temperature byte, cell voltage byte and/or under-voltage position.?
While charging via charger 1040 to battery 1007, charge position and week are arranged by battery controller 1006 in the message
Phase property charge position is broadcasted via cable network 1008.When compared with the value of charging voltage sensor 1022, electric machine controller
1002 detect charging mistake using this information, and the value of charging voltage sensor 1022 should equally indicate that battery 1007 is lower than
Indicate the voltage level for the electric current that charging needs.When battery 1007 is in full of piezoelectric voltage, battery controller 1006 is in message
Middle setting is full of current potential full of current potential and via the broadcast of cable network 1008.When compared with the value of charging voltage sensor 1022
When, electric machine controller 1002 detects charging mistake using this information, and the value of charging voltage sensor 1022 should equally refer to
Show that battery is no longer below the voltage level for the electric current that instruction charging needs.
In response to detecting the electric current of the offer of battery 1007 and/or the mistake of voltage when to the operation power of bed 10,
It (is 16 in one embodiment, in other embodiments that battery error code position, which is arranged, in battery controller 1006 in the message
It is other desired bit lengths), and battery error code position is broadcasted via cable network 1008.Electric machine controller 1002 uses
The electric machine controller error code for display 1005 is arranged in battery error code, and subsequent part will be discussed.When
When battery 1007 is in the temperature higher than 55 DEG C, battery controller 1006 is arranged high-temperature position and in the message via cable network
1008 broadcast high-temperature positions.The electric machine controller for display 1005 is equally arranged in electric machine controller 1002 using this information
Error code.Read battery temperature and voltage after, battery controller 1006 be arranged in the message battery temperature byte with
Cell voltage byte, and periodically temperature byte and cell voltage byte are broadcasted via cable network 1008.If come from
Least significant bit in the message of battery controller 1006 has not been changed after a certain time, then electric machine controller 1002 will be from filling
The input terminal of piezoelectric voltage sensor 1022 reads cell voltage (ChargeV).In one embodiment, when total cell voltage 1007
When lower than 33.5V, under-voltage position is arranged in the message and broadcasts under-voltage via cable network 1008 for battery controller 1006
Position, in other embodiments as required and according to the setting in configuration file 1106, total cell voltage can be higher or more
It is low.At this voltage and when being maintained at this voltage or less, electric machine controller 1002 will be from charging voltage sensor
1022 input terminal reads cell voltage (ChargeV), rather than reads from the message from battery controller 1006.
Referring to Figure 18, the communication information sending and receiving agreement for GUI controller 1004 is shown in figure, be shown from
The information that GUI controller 1004 is provided via cable network 1008.According to every of agreement message by header frame, byte number frame
It is constituted with data frame, header frame indicates cradle and the type of the message provided via bed control system 1000, byte number frame
Indicate the length of the message for message error detection.Data frame in message from GUI controller 1004 includes driving lamp
Position, direct powering mode code bit, display software version position, display configuration version position and display version graph one's own department or unit.
When operator orders driving lamp 1034 (such as lamp 86,88 and 89) of activation bed 10 via GUI 1005,
Driving lamp position is arranged in GUI controller 1004 in the message, and broadcasts driving lamp position via cable network 1008.Electric machine controller
1002 connect driving lamp 1034, such as lamp 86,88 and in response to reading the message provided with driving lamp position from GUI controller
89.It is explained in part as follows, electric machine controller 1002 reads in selection operation mode and uses direct powering mode
Code bit (being 3 in one embodiment, be other desired bit lengths in other embodiments), the direct powering mode generation
Code bit is arranged in response to operator via the input of GUI 1005 in the message by GUI controller 1004, and via having
Gauze network 1008 is broadcasted.(such as display software version position, display configure version to the remainder data that GUI controller 1004 provides
One's own department or unit and display version graph one's own department or unit) it is arranged in the message by GUI controller 1004 in response to inquiry, and by electric machine controller
1002 are used to be arranged these version values and mention to the external utility for the sending inquiry for being connected to electric machine controller via USB
For these version values, with for diagnose/update purpose.
Table 1: it is shown between electric machine controller 1002 and the rest part of system 1000 in electric machine controller I/O and Figure 15
I/O signal.
Table 1: electric machine controller I/O
Electric machine controller 1002 is shown in Table 1 and Figure 19 based on the input signal selection mode received.It is illustrated at this
In embodiment, electric machine controller 1002 follows the program instruction provided via one or more scripts 1100.Each script provides
Program code or bytecode, these codes are saved in the memory (such as memory 102 (Fig. 7)) of electric machine controller 1002 simultaneously
And it is run from the memory.Each syllabified code for example and is not limited to can be logical expression, sentence or is input to motor
Value of the controller 1002 for execution.For example, in one embodiment, via the one or more timing for using controller 1002
The script of device register implements wake-up timer 1104 (Figure 19).Timer register can be used from script 1100
Script command is loaded with the counter of value.Then the execution state of counter and any other script independently falls to count for every millisecond
When.Include following function in the program code of script: load timer reads its current count value, pause and restores to count, and
And it examines and counts whether have reached zero (0).
Many other scripts 1100 are provided in the memory 1102 of controller, these scripts enable bed 10 to mention
For all above-mentioned movements, operation and instruction, these scripts are discussed in more detail in part hereafter.Electric machine controller 1002 also makes
With the configuration file 1106 being also stored in memory (such as memory 102) therefrom to read and for comparing and/or
Particular preset/predefined parameter/variable discussed herein is set.It will be appreciated that any parameter preset discussed herein can be
It provides in configuration file 1106 or script 1100 and is therefrom read by electric machine controller 1002, and if this parameter preset exists
It is provided in configuration file 1106, then it can be customized by operator.Once the memory that particular script is stored in controller is (all
Such as memory 102) in, when starting controller 1002, so that it may manually or automatically execute the script.By via
USB port sends order and executes and manually boot.(for example) via the PWR signal from user interface 1039 on controller
After electricity, or by setting automatic script configure with enabled in the configuration memory of controller (for example) bootstrap it
Afterwards, script can be started automatically.When enabled, it if detecting script in memory after a reset, enables script and holds
Row and by Run Script.
Figure 20 shows the main script (that is, program instruction) 2000 of the execution of electric machine controller 1002 via process, is used for
Motor mode selection is automatically determined based on above-mentioned input, and (that is, less than in 1 second) issues motor order in real time.It is handling
In step 2002, electric machine controller 1002 checks whether the PWR signal from user interface 1039 is low state, if it does,
The mode that then electric machine controller 1002 maintains is "Off" mode 2004.If coming from user interface in processing step 2002
1039 PWR signal is high state, then electric machine controller 1002 examines the charging voltage from charger in processing step 2006
(ChargeV) whether non-zero, and if it does, then electric machine controller 1002 select mode be " charging " mode 2008.
If ChargeV voltage is zero in processing step 2006, in processing step 2010, electric machine controller 1002 is examined previous
Whether mode is " charging " mode 2008.If it is, electric machine controller 1002 examines electric machine controller in step 2012
Whether the wake-up timer 1104 of 1002 operations has expired, if it does, then bed 10 is placed in " not by electric machine controller 1002
Sleep " mode 2014.If electric machine controller 1002 determines the wakeup time of wake-up timer 1104 still in processing step 2012
Not yet due, then bed is placed in " wake-up " mode 2016 by electric machine controller 1002.It will be appreciated that wakeup time can be via configuration text
Part 1106 configures, but in one embodiment, wakeup time can be the range that is (for example) selected from 0 to 10000 seconds, and one
It is 600 seconds in a specific embodiment.However, if previous mode is not charge mode 2008 in processing step 2010, then it is electric
Machine controller 1002 examines whether previous mode is "Off" mode 2004 in processing step 2018, if it does, then electric
Bed is placed in " suspend mode " mode 2014 by machine controller 1002.In other words, after preset unused time amount, motor control
Device 1002 processed will enter " suspend mode " mode 2014 to save electric power.
In processing step 2018, definitive result is that previous mode is not "Off" mode 2004, then in processing step
In 2020, electric machine controller 1002 examine since last time pressing "+" or "-" button 1035 or 1037 since whether be more than
The wakeup time specified time, if so then bed is placed in " suspend mode " mode 2014 by electric machine controller 1002.When in step
If pressing "+" or "-" button 1035 or 1037, will then make motor control when bed is in suspend mode 2014 in rapid 2022
Bed is placed in awakening mode 2016 by device 1002 processed.If since last time pressing "+" or "-" are pressed in processing step 2020
The wakeup time specified time it has been less than since button 1035 or 1037, then electric machine controller 1002 is examined directly in step 2024
Whether powering mode code is 0 (that is, selecting via " wake-up " button on control casket 50 and/or GUI 1005).If directly
Powering mode code is 0, then electric machine controller 1002 check whether in step 2026 there are "+" or "-" button 1035 or
1037 pressing, if it is not, then bed is placed in " wake-up " mode 2016 by electric machine controller 1002.If in processing step
Direct powering mode code is not 0 in 2024, then electric machine controller 1002 examines direct powering mode in processing step 2028
Whether code is 1 (that is, via the selection of " directly-two kinds of supporting legs of power supply " button on control casket 50, (for example) via by pressing
The button of button array 52,54 or button 53 and/or GUI 1005), if so then in " directly-two kinds of supporting legs of power supply " mode
Middle actuating bed.If direct powering mode code is not 1 in processing step 2028, electric machine controller 1002 is walked in processing
Examine whether direct powering mode code is 2 (that is, via on control casket 50, button 53 and/or GUI 1005 in rapid 2030
The selection of " direct power supply-load terminal supporting leg " button), if it does, then being caused in " direct power supply-load terminal supporting leg " mode
Dynamic bed.If direct powering mode code is not 2 in processing step 2030, electric machine controller 1002 is in processing step
Examine whether direct powering mode code is 3 (that is, via " straight on control casket 50, button 53 and/or GUI 1005 in 2032
Connect power supply-control terminal supporting leg " selection of button), if it does, then being activated in " direct power supply-control terminal supporting leg " mode
Bed.If direct powering mode code is not 3 in processing step 2032, electric machine controller 1002 is in processing step 2034
It is middle to examine whether direct powering mode code is 4 (that is, via " the setting dress on control casket 50, button 53 and/or GUI 1005
The selection of load height " button), if it does, then activating bed in " setting loading height " mode.If in processing step
Direct powering mode code is not 4 in 2034, then electric machine controller 1002 examines direct powering mode in processing step 2036
Whether code is 5 (that is, via selections of " seat position " button on control casket 50, button 53 and/or GUI 1005), if
If being, then bed is activated in seat mode position.If direct powering mode code is not 5 in processing step 2036,
Then bed is placed in awakening mode by electric machine controller 1002.If electric machine controller 1002 detects in processing step 2026
In the presence of the pressing for "+" or "-" button 1035 or 1037, then electric machine controller 1002 is in processing step 2038 based on reception
To input determine and select motor status order, be hereafter explained in greater detail in subsequent part.It will be appreciated that in some realities
It applies in example, one of array of buttons 52,54 or the button of button 53 may be used as mode selecting button, which allows
User cycles through mode selection sequence, and each pattern selection has the phase in direct powering mode code value discussed herein
An associated value.For example, in some embodiments, each button press is recycled to next mode, and make motor control
Device 1002 processed shows the matching image of selected mode on GUI 58 or 1005.For example, Figure 24 A describes for selecting GUI 1005
The matching image of-two kinds of supporting leg modes of direct power supply of upper display, Figure 24 B describes direct for selecting to show on GUI 1005
Power supply-load terminal supporting leg mode matching image, Figure 24 C describe for selecting the direct power supply-control shown on GUI 1005
Hold the matching image of supporting leg mode.Figure 24 D describes the seat position for selecting electric machine controller 1002 to show on GUI 1005
The matching image of mode is set, is discussed in subsequent part.In some embodiments, button press sequence is: directly power supply-
Two kinds of supporting legs correspond to direct powering mode code=1;Direct power supply-load terminal supporting leg, corresponds to direct powering mode code
=2;Direct power supply-control terminal supporting leg, corresponds to direct powering mode code=3;Loading height is set, corresponds to and directly powers
Schema code=4;And standard (normal) operation mode, electric machine controller 1002 is put back into control and is automatically brought into operation following sequence:
It is inputted based on sensor and moves supporting leg, and other buttons on pressing control casket 50, and/or pressing "+" or "-" button
1035 or 1037, as discussed herein.
Close pattern and charge mode operation
In close pattern and charge mode operation, electric machine controller 1002 is powered, but electric power is not delivered to cause
Dynamic device 16,18, and lamp 86,88,89 does not provide illumination.Electric machine controller 1002 ignores "+" and "-" operator's control button
1035,1037 any input.Subsequent part will continue to explain the update of error detection, error logging and error code.Such as
It is upper described, if the PWR signal from user interface 1039 is high state, then if the charging voltage from charger 1040
It (ChargeV) is not zero, then mode is " charging ", which is sending from electric machine controller 1002 via cable network 1008
Charging voltage is arranged in message, and there are positions.
Operation of sleep mode
In operation of sleep mode, electric machine controller 1002 is powered off so that the power consumption of the energy of battery minimizes.?
In this mode, electric power is not transmitted to actuator, and lamp 1032,1034 does not provide illumination.In case of input, that is, occur
Raising/extension operator controls ("+") button 1035 or the pressing of reduction/retraction operation personnel control ("-") button 1037,
Then once pressing of the release to any one button in button 1035,1037, is just placed in awakening mode for electric machine controller 1002
Operation.As long as wake-up timer 1104 not yet expires, "+"/"-" button press is then by the part behaviour as follows next time
Make bed 10, to send electric machine controller 1002 back to " suspend mode " mode as described above.In suspend mode, electric machine controller
1002 continue to monitor erroneous condition.Any mistake detected is recorded in error log file, but other mistakes no longer occur
Accidentally processing is so that the power consumption of the energy of battery minimizes.
Directly-two kinds of supporting legs of power supply, load terminal supporting leg or control terminal supporting leg
In directly-two kinds of supporting leg modes of power supply, direct power supply-load terminal supporting leg mode and direct power supply-control terminal supporting leg
In mode, electric machine controller 1002 continues to monitor erroneous condition.Any mistake detected is recorded in error log file.It is right
In any mistake detected, associated error code position is set.Other error handles do not occur in this mode.Motor
Controller 1002 ignores all the sensors (including angular transducer, proximity sensor and supporting leg state sensor) in these moulds
The movement of supporting leg is controlled in formula.Motor status for directly power-control terminal supporting leg mode is 5.Motor status is for directly supplying
Electric-two kinds of supporting leg modes are 6.Motor status for directly power-load terminal supporting leg mode is 7.
Seat position mode
In seat mode position, electric machine controller 1002 shown on GUI 1005 image described in Figure 24 D and
Ignore the "+" button 1035.When keeping "-" button 1037, bed 10 is moved to by electric machine controller 1002 in Realize
The preset seat position height parameter in configuration file 1106.Once bed has reached the level of seat position height, load
Hold supporting leg that will stop moving, and control terminal supporting leg will be retracted into operator's height of seat with controlled electric power.If worked as
Load terminal supporting leg 20 has been in seat position height level when pressing "-" button 1037, then does not move in load terminal supporting leg 20
When, control terminal supporting leg 40 will be directly retracted into configuration file 1106 in advance with controlled electric power speed by electric machine controller 1002
If operator's height of seat.Motor status is 9 for seat position mode.
Loading height is set
When Setting pattern selects setting loading height, current A1 value is stored in memory (example by electric machine controller 1002
Such as memory 102) in, as the default loading height provided in configuration file 1106.Prolonging relative to actuator rod is set
Elongation rather than primary voltage reading be stored in configuration file 1106.When in this mode, electric machine controller 1002 is neglected
Slightly operator's control button 1035,1037.
Awakening mode
Awakening mode is standard (complete) operation mode of bed.This mode allows control terminal supporting leg and load terminal supporting leg
Independent supporting leg it is mobile.
Referring to Figure 21, mapping of the electric machine controller 1002 in processing step 2038 (Figure 20) according to uses input generation
The value of position in code signal automatically determines motor status.Motor status order is defined in aft section provided below.It is following fixed
The position of adopted input code signal: position 0=D1, position 1=D2.Figure 22 and Figure 23 are also referred to, the cross of cross member 64 is shown in figure
Section (obtains) along the section line A-A described in Fig. 2, and upper actuator cross member 299 (Fig. 6) is rotatably attached to this
Cross member 64.As shown in Figure 22 and Figure 23, cross member 64 provides pivot in the cavity 2202 limited by its bottom surface 2203
Disk 2200.Pivotal plate 2200 is rotatably attached to cross member 64 and neighbouring second end 2206 adjacent to first end 2204
It is rotatable to be attached to upper actuator cross member 299, second end 2206 and first end 2204 separate (that is, separate) and
Below first end 2204.
As shown in figure 23, pivotal plate 2200 can rotate in angle r around first end 2204, and angle r is in a reality
Applying range in example is spent from 0 to 15, and range is to spend from 0 to 30, and range is in another embodiment in other embodiments
Degree or range are any other values between 0 and 90 degree from 0 to 45.As shown in figure 22, when the side of pivotal plate 2208 (with
Lateral actuator component 299 separates (that is, separate) and above lateral actuator component 299), it is closely adjacent (that is, angle r <
3 degree), when being parallel to or abutting against the bottom surface 2203 of cross member 64, pivotal plate 2200 is in first position X1.It opens/closes
Sensor 1010 (Figure 15) detects first position X1And electric machine controller 1002 is sent it to, which can be with
It is (for example) Reed switch sensor, hall effect sensor, angular transducer or contact-making switch.Therefore, when as shown in figure 22
Sensor 1010 detects the pivotal plate 2200 for loading supporting leg in first position X1Orientation when a position D1 be arranged to 1, and ought be such as
Pivotal plate 2200 shown in Figure 23 is in second position X2Orientation when position a D1 be arranged to 0.
In one embodiment, in one embodiment when angle r > 3 degree, sensor 1010 indicates second position X2。
In another embodiment, first position X is in pivotal plate 2200 when upper actuator cross member 299 is reduced to it1When
Below relative position when 2.5mm, sensor 1010 indicates second position X2.Equally, because the pivotal plate of control terminal supporting leg (is not schemed
Show) it is identical as pivotal plate 2200, so the pivotal plate when control terminal supporting leg as shown in figure 22 is in first position X1When position a D2 set
It is set to 1, and second position X ought be in as shown in figure 232When position a D2 be arranged to 0.
In yet another embodiment, it should be understood that automatic control of the bed actuating system 34 in bed control system 1000
It is lower that braced frame 12 is interconnected to each supporting leg in supporting leg 20,40 with this, and matched as described in the part of front
The height to braced frame 12 relative to the runner 26,46 of each supporting leg in supporting leg 20,40 is set to be changed.Bed control
System 1000 controls the activation of bed actuating system 34, and is configured as one of detection bed actuating system 34 as described above
Or two actuators 16,18 are in first orientation or position X relative to braced frame 121, wherein first orientation is far from second party
Position or position X2, and the end (that is, cross member 299) of the separate runner 26,46 of actuator 16 and/or 18 is positioned to more
Close to braced frame 12.Request to change runner of the braced frame 12 relative to each supporting leg in supporting leg 20 and/or 40 when existing
When the signal of 46 height 26, (such as pressing control button 56 or 60 and/or as follows this is indicated shown in following part
The input code signal of a height change), bed actuating system 1000 makes one or two actuating of bed actuating system 34
Device 16,18 will be propped up according to from the input of the received condition sensed discussed above herein of one or more sensors
Support frame frame 12 and supporting leg 20 and/or 40 are directed to closer or farther.
Referring back to Figure 21, the position 2 of input code signal indicates the state of C1 bottom plate condition to electric machine controller 1002, and
And determined according to following equation: C1&&A1 < 5%, wherein C1 is 1 when loading wheel proximity sensor and detecting bottom plate, when
Loading C1 when bottom plate is not detected in wheel proximity sensor is 0.When load terminal actuator rod extends less than 5%, expression formula A1 <
5% sets up (1).The position 3 of input code signal indicates the state of C2 bottom plate condition to electric machine controller 1002, and according to following
Equation determines: C2&&A1 < 1%&&A2 < 5%, wherein the C2 when the proximity sensor installed on control terminal supporting leg detects bottom plate
It is 1, when bottom plate is not detected in the proximity sensor, C2 is 0.When load terminal actuator rod extends less than 1%, expression formula A1 <
1% sets up.When control terminal actuator rod extends less than 5%, expression formula A2 < 5% is set up.The position 4 of input code signal is to electricity
Machine controller 1002 indicates intermediate loading conditions or loads the state of angle and determined according to following equation: A2-A1 > 37%&&
A1 < 5%, wherein when the extension of control terminal actuator rod is big relative to the extension of total possibility ratio of elongation load terminal actuator rod
When 37%, expression formula A2-A1 > 37% is set up.When load terminal actuator rod extends less than 5%, expression formula A1 < 5% is set up.It is defeated
Enter the position 5 of code signal and indicates the state of bed height in maximum value, and by according to such as the following to electric machine controller 1002
Formula determines: the horizontal extent of A2&&A1 > 99%, and the extension of this instruction control terminal actuator rod and load terminal actuator rod is both greater than
99%.
As shown in figure 21, when input code signal position has the decimal value of 24-63 range, motor control 1002 is automatic
Select motor status 0.When input code signal position has selected from 2,6,10,14 and 18 decimal value, motor control 1002
Automatically select motor status 1.When input code signal position has decimal value 19, motor control 1002 automatically selects motor shape
State 1-.When input code signal position has selected from 1,4,5,9,17,20 and 21 decimal value, motor control 1002 selects automatically
Select motor status 2.When input code signal position has selected from 22 and 23 decimal value, motor control 1002 automatically selects electricity
Machine state 2-.When input code signal position has selected from 3,7,11 and 15 decimal value, motor control 1002 is automatically selected
Motor status 3.When input code signal position has selected from 8,12 and 13 decimal value, motor control 1002 automatically selects electricity
Machine state 3-.When input code signal position has selected from 0 and 16 decimal value, motor control 1002 automatically selects motor shape
State 8.It will be appreciated that operator manually selects motor shape as described in above with reference to seat position mode and direct powering mode
State 5-9.
It is automatically stopped caused by supporting leg state change.When input code signal changes due to the variation of D1 or D2 state
When, electric machine controller 1002 stops the supporting leg of mobile bed, is until re-pressing any one button in button 1035,1037
Only.
Position indicator.When bed 10 is not attached to charger 1040 and has met the condition in two kinds of situations,
Position indicator 1032 (being such as embodied as line indicator 74 (Fig. 7) in an example) (is opened) in illumination.For the first situation,
It needs to meet the following conditions: the loading position provided with input code signal, and control terminal supporting leg is in first position X1In.Work as dress
Setting loads position, and difference>=40% between load terminal supporting leg and control terminal supporting leg when carrying the extension of supporting leg<5%.For
Second situation needs to meet the following conditions: when loading end sensor 76 " seeing " loading surface, and control terminal supporting leg is prolonging
Stretch state (> 5%).
Movement in motor status
Motor status 0: in this motor status, electric machine controller 1002, which is ignored, presses any of button 1035,1037
Pressure, so that load terminal solenoid actuator 1036 and control terminal solenoid actuator 1038 are not activated, so that supporting leg 20,40
Neither extend nor retracts.
Motor status 1: when pressing the "+" button 1035, electric machine controller 1002 makes load terminal solenoid actuator
1036 extend load terminal supporting leg 20 with most probable velocity in open loop mode.Control terminal solenoid actuator 1038 is not by motor
Controller 1002 activates, so that control terminal supporting leg 40 does not move.When "-" button 1037 is pressed, electric machine controller 1002 makes
It obtains load terminal solenoid actuator 1036 and load terminal supporting leg 20 is retracted in open loop mode with most probable velocity.Control terminal helical
Pipe actuator 1038 is not activated by electric machine controller 1002, so that unless meeting upshift (Kickup) mode item described below
Part, otherwise control terminal supporting leg 40 does not move.
Upshift mode: when input code signal is transformed into 18 (that is, load terminal supporting leg 20 is sufficiently retracted so that centre is arranged from 2
Loading conditions) when, electric machine controller 1002 will make control terminal supporting leg 40 automatically extend into the liter limited in configuration file 1106
Shelves height.If the control terminal supporting leg after upshift time (the predefined count-down device time in configuration file 1106) expires
40 do not extend into upshift height also, then electric machine controller 1002 will stop extending the trial of control terminal supporting leg 40.This movement is anti-
Only electric machine controller 1002 continues to attempt to extend in the control terminal supporting leg 40 of its maximum possible ductility.As long as "-" button
1037 are pressed and its maximum retraction degree has not yet been reached in load terminal supporting leg 20, and during upshift mode, load terminal supporting leg 20 will
Continuation is retracted by electric machine controller 1002.After upshift time timer expires and when load terminal supporting leg 20 has reached it most
When big retraction is spent, electric machine controller 1002 makes to load the stopping of actuator 18.
Motor status 1-: in this motor status, pressing the "+" button 1035 will not make electric machine controller 1002 activate spiral shell
Spool actuator 1036,1038, but pressing "-" button 1037 can make electric machine controller 1002 activate load terminal solenoid-actuated
Device 1036, so that load terminal supporting leg 20 is retracted in open loop mode with most probable velocity.In addition, control terminal solenoid causes
Dynamic device 1038 does not move, so that control terminal supporting leg 40 is maintained at identical height.
Motor status 2: in this motor status, pressing the "+" button 1035 activates electric machine controller 1002 only
Control terminal solenoid actuator 1038, so that control terminal supporting leg 40 is extended in open loop mode with most probable velocity.It is pressing
When "-" button 1037, electric machine controller 1002 only activates control terminal solenoid actuator 1038 so that control terminal supporting leg 40 with
Most probable velocity retracts in open loop mode.
Motor status 2-: in this motor status, electric machine controller 1002 ignore to the "+" button 1035 it is any by
Pressure, so that load terminal solenoid actuator 1036 and control terminal solenoid actuator 1038 are not activated, so that supporting leg 20,40
Do not extend.When pressing "-" button 1037, electric machine controller 1002 will activate control terminal solenoid actuator 1038, so that control
End supporting leg 40 processed is being opened with the specified electric power setting of downshift electric power (KickDownPower) parameter provided in configuration file 1106
It is retracted in ring mode.
Motor status 3: pressing the "+" button 1035 and the ductility of load terminal supporting leg 20 and control terminal supporting leg 40 grasping
When making equal in the 2% of range, electric machine controller 1002 makes load terminal solenoid actuator 1036 in configuration file 1106
It increases the specified electric power setting of electric power and extends load terminal supporting leg 20.In addition, electric machine controller 1002 activates control terminal solenoid to cause
Dynamic device 1038, so that control terminal supporting leg 40 extends in tracking mode (position that tracking loads supporting leg).When supporting leg 20,40 reaches
Pass through the shipping height preset in configuration file 1106 or script 1100 and read from configuration file 1106 or script 1100
When the first stop position that parameter determines, electric machine controller 1002 stops the extension of supporting leg 20,40.In order to continue supporting leg 20,40
Extension, the "+" button 1035 has been released and re-pressed.It is re-pressed when after stopping at shipping height stop position
When the "+" button 1035, electric machine controller 1002 will extend supporting leg 20,40 again, until the supporting leg reaches loading height stop position
It is set to only.In order to continue to extend supporting leg 20,40 until its maximum possible ductility degree (highest water beyond loading height stop position
Flat height stop position (A1=99%, A2=99%)) until, the "+" button 1035 must will be released and re-press again.
It will be appreciated that if loading height stop position be arranged in shipping height stop position 0.2 inch (5.08mm) (
Measured on actuator rod) in, then electric machine controller 1002 ignores the stopping in loading height stop position.The phase is operated at the scene
Between, when due to mistake and/or for current care needing that loading height stop position may must be deactivated, this is characterized in having
?.When the beginning of electric machine controller 1002 moves supporting leg 20,40 via the activation of solenoid actuator 1036,1038, branch
Leg extension speed will start to accelerate to increase in the parameter specified period from starting to increase electric power speed (that is, the first electric power soft
Setting parameter) tiltedly becoming the setting of raising parameters of electric power, (parameter is arranged in the second electric power, is greater than the first electric power and parameter is arranged, in this way
Relative to bed the first electric power be arranged parameter under increase meeting so that lie in bed increase faster) speed, wherein all parameters are all
It is that electric machine controller 1002 is preset and read from configuration file 1106 or script 1100.The "+" button is discharged in operator
After 1035, electric machine controller 1002 will stop in soft stop makes the oblique deascension of supporting leg extension speed to starting to rise in the parameter specified period
High electric power speed (that is, first electric power nominal parameter), wherein all parameters are also all electric machine controllers 1002 from configuration file
1106 or script 1100 it is default and read.If the ChargeV signal value from sensor 1022 (or is controlled according to battery
Device 1006 is reported via battery communication information) less than raising electric power is started, then electric machine controller 1002 will arrive solenoid-actuated
The output power of device 1036,1038 is arranged to zero (0) volt.When approaching shipping height stop position, electric machine controller 1002
It increases supporting leg retraction speed preset in configuration file 1106 or script 1100 in the specified distance of range correction value parameter
(that is, the electric power for being output to solenoid actuator 1036,1038) oblique deascension is spent into zero (0).Electric machine controller 1002 will not make to fill
It carries or control terminal supporting leg is mobile more than highest level height parameter.If loading or control terminal supporting leg when entering motor status 3
Other than highest level altitude range, then when pressing "-" button 1037, electric machine controller 1002 can just contract supporting leg
It returns in horizontal extent.
It is pressed in "-" button 1037 and load terminal supporting leg 20 and control terminal supporting leg 40 extends in opereating specification
When equal in 2%, electric machine controller 1002 will activate load terminal solenoid actuator 1036, so that load terminal supporting leg 20 is with from matching
It sets the parameters of electric power specified electric power that reduces that file 1106 or script 1100 are preset and read and retraction is set.Electric machine controller 1002
Control terminal solenoid actuator 1038 (position that tracking loads supporting leg) in tracking mode is also set to retract control terminal supporting leg 40.Electricity
Machine controller 1002 will stop retracting the supporting leg when supporting leg 20,40 reaches shipping height stop position, and until "-" button
1037 just continue to be retracted into shipping height stop position or less when being released and having re-pressed.
When the beginning of electric machine controller 1002 moves supporting leg 20,40 via activation solenoid actuator 1036,1038, branch
Leg retraction speed is by from reduction electric power speed is started, (third electric power is arranged in the soft period for reducing and accelerating reduction parameter specified
Parameter) tiltedly become by reducing electric power speed (the 4th electric power setting parameter, greater than third electric power setting parameter, so that relatively
In lie in bed third electric power be arranged parameter under reduce when, bed reduce faster) setting speed, wherein all parameters be all
It presets in configuration file 1106 or script 1100 and is read from configuration file 1106 or script 1100 by electric machine controller 1002
It takes.After operator discharges "-" button 1037, electric machine controller 1002 will stop in the parameter specified period in soft stop
By the oblique deascension of supporting leg retraction speed to start reduce electric power speed parameter.As described above, if sensor 1002 or battery controller
The electric power of 1006 reports is less than soft reduction parameters of electric power, then electric machine controller 1002 will arrive solenoid actuator 1036,1038
Output power is arranged to zero (0) volt.When approach floor level height stop position is (by electric machine controller 1002 from configuration file
1106 or script 1100 it is default and read) when, electric machine controller 1002 will be on reducing the specified distance of range correction value parameter
It lies prostrate the oblique deascension of supporting leg retraction speed to zero (0), it is also pre- in configuration file 1106 or script 1100 to reduce range correction value parameter
And if being read from configuration file 1106 or script 1100 by electric machine controller 1002.Electric machine controller 1002 will not make to load
Holding any supporting leg in supporting leg 20 or control terminal supporting leg 40 mobile is more than floor level height stop position.If when entering electricity
Any supporting leg when machine state 3 in load terminal supporting leg 20 or control terminal supporting leg 40 is in floor level height stop position model
Other than enclosing, then when the "+" button 1035 is pressed, electric machine controller 1002 can just be such that supporting leg retracts in horizontal extent.In "+"
Or "-" button 1035 or 1037 is kept and supporting leg 20,40 is with the operation model more than corresponding solenoid actuator 1036,1038
When the 2% unequal degree enclosed extends, electric machine controller 1002 only automatically moves needs and travels upwardly in button press side
The supporting leg (that is, supporting leg 20 or 40) extended with balanced supporting leg.Once angular transducer 1018 senses supporting leg 20,40 and has reached phase
Deng ductility (A1=A2), electric machine controller 1002 then will extend/retract simultaneously branch as described in part in front above
Leg 20,40.Controller 1002 is executed above-mentioned automatic equalization function and is raised and lowered with the level for ensuring bed 10.It will be appreciated that most
Low-level height stop position is setting value, and lies in bed and 10 will highly be stopped based on the feedback from angular transducer at this
Only reduce.If bed 10 stops reducing more than this height, pressing "-" button 1037 will make unit be reduced to stop position
Set height.In this height, further pressing "-" button 1037 not will do it any movement, and if met discussed herein
Extension condition, then press the "+" button 1035 will increase bed 10.Bed 10 this functional performance prevent button 1035 or
The 1037 mobile beds 10 when bed 10 is fully retracted and is loaded in first aid means of transport.
Motor status 3-: when in this motor status, electric machine controller 1002 will be to not appointing on the "+" button 1035
What pressing makes a response, so that load terminal supporting leg 20 and control terminal supporting leg 40 do not move.It is pressed in "-" button 1037
And when (such as 10mm) is equal in extend in opereating specification the 2% of load terminal supporting leg 20 and control terminal supporting leg 40, motor control
The reduction electricity that device 1002 processed will make load terminal solenoid actuator 1036 to provide from configuration file 1106 or script 1100
The specified electric power setting of force parameter retracts load terminal supporting leg 20.In addition, electric machine controller 1002 makes control terminal solenoid actuator
1038, which (track the position for loading supporting leg) in tracking mode, retracts control terminal supporting leg 40.Electric machine controller 1002 will be in supporting leg
20, stop retracting these supporting legs when 40 reach shipping height stop position, and until "-" button 1037 has been released and again
When new pressing, it just will continue to retract supporting leg 20,40.After "-" button 1037 has been released and has re-pressed, when opening again
When beginning movement supporting leg 20,40, electric machine controller 1002 will make supporting leg contract in the soft period for reducing and reduction parameter being accelerated to specify
It returns speed and tiltedly becomes the speed that reduction electric power speed parameter is arranged from reduction electric power speed is started."-" is discharged in operator to press
After button 1037, electric machine controller 1002 will stop in the parameter specified period in soft stop by supporting leg retraction speed oblique deascension to beginning
Reduce electric power speed parameter.If the electric power or battery controller 1006 of the ChargeV signal designation from sensor 1022 exist
The electric power indicated in communication information be less than starts reduce electric power speed, then electric machine controller 1002 to solenoid actuator 1036,
1038 output powers provided are arranged to zero (0) volt.When approaching floor level height stop position, electric machine controller 1002 will
The oblique deascension of supporting leg retraction speed is lied prostrate to zero (0) in reducing the specified distance of range correction value parameter.Electric machine controller 1002 will
Not making any supporting leg in load terminal supporting leg 20 or control terminal supporting leg 40 mobile is more than floor level height stop position.
Electric machine controller 1002 will not make supporting leg 20,40 move out floor level height stop position.If when entering
Any one of supporting leg 20,40 or two kinds of supporting legs are other than floor level altitude range when motor status 3, then until pressing
When the "+" button 1035, electric machine controller 1002 can just be retracted supporting leg in horizontal extent.Be kept in "-" button 1037 and
When supporting leg is to be more than that 2% unequal degree of opereating specification extends, only retraction in need extended with balanced supporting leg this to branch
Leg 20 or 40 will move.Once supporting leg has reached equal ductility (that is, A1=A2), just by part such as above in front
Described in by electric machine controller 1002 make these supporting legs retract.
Motor status 5: in this motor status, when the "+" button 1035 is pressed, electric machine controller 1002 is by such as
Under type makes a response: control terminal solenoid actuator 1038 is only activated, so that control terminal supporting leg 40 is to reduce raising electric power
The level of power of parameter setting extends, which increases parameters of electric power and preset and lead in configuration file 1106 or script 1100
Electric machine controller 1002 is crossed to read from configuration file 1106 or script 1100.When electric machine controller 1002 starts mobile control terminal branch
When leg 40, supporting leg extension speed starts to accelerate to increase tiltedly to become in the parameter specified period from starting to increase electric power speed soft
Reduce the speed for increasing parameters of electric power setting.When "-" button 1037 is pressed, electric machine controller 1002 only activates control terminal
Solenoid actuator 1038, so that control terminal supporting leg 40 is to reduce the level of power retraction for reducing parameters of electric power and being arranged.Work as motor
When controller 1002 starts mobile control terminal supporting leg 40, supporting leg retraction speed accelerates to reduce the parameter specified period in soft reduce
In from start reduce electric power speed tiltedly become reduce parameters of electric power be arranged speed.
Motor status 6: when in this motor status, when the "+" button 1035 is pressed, electric machine controller 1002 swashs
Two solenoid actuators 1036,1038 living, so that both supporting legs 20,40 are all to reduce the electric power for increasing parameters of electric power setting
Horizontal extension.When electric machine controller 1002 starts mobile supporting leg 20,40, electric machine controller 1002 makes supporting leg extension speed soft
Start to accelerate to increase to increase what parameters of electric power was arranged from starting to increase electric power speed tiltedly to become to reduce in the parameter specified period
Speed.When "-" button 1037 is pressed, electric machine controller 1002 activates solenoid actuator 1036,1038, so that both
Supporting leg 20,40 is all to reduce the level of power retraction for reducing parameters of electric power setting.When electric machine controller 1002 starts mobile supporting leg
20,40 when, electric machine controller 1002 accelerates supporting leg extension speed reduce in the parameter specified period from the beginning of in soft reduce
Electric power speed is reduced tiltedly to become to reduce the speed for reducing parameters of electric power setting.
Motor status 7: in this motor status, when the "+" button 1035 is pressed, electric machine controller 1002 is by such as
Under type makes a response: load terminal solenoid actuator 1036 is only activated, so that load terminal supporting leg 20 is to reduce raising electric power
The level of power of parameter setting extends, which increases parameters of electric power and preset and lead in configuration file 1106 or script 1100
Electric machine controller 1002 is crossed to read from configuration file 1106 or script 1100.When electric machine controller 1002 starts mobile load terminal branch
When leg 20, supporting leg extension speed starts to accelerate to increase tiltedly to become in the parameter specified period from starting to increase electric power speed soft
Reduce the speed for increasing parameters of electric power setting.When "-" button 1037 is pressed, electric machine controller 1002 only activates load terminal
Solenoid actuator 1036, so that load terminal supporting leg 20 is to reduce the level of power retraction for reducing parameters of electric power and being arranged.Work as motor
When controller 1002 starts mobile load terminal supporting leg 20, supporting leg retraction speed accelerates to reduce the parameter specified period in soft reduce
In from start reduce electric power speed tiltedly become reduce parameters of electric power be arranged speed.
Motor status 8: when in this motor status, when the "+" button 1035 is pressed, electric machine controller 1002 swashs
Solenoid actuator 1036,1038 living, so that supporting leg 20,40 is extended with maximum power.When "-" button 1037 is pressed, electricity
Machine controller 1002 activates the two solenoid actuators 1036,1038, so that supporting leg 20,40 is retracted with maximum power.
Motor status 9: in this motor status, when "-" button 1037 is pressed, if control terminal supporting leg 40 does not exist
(the two parameters are all in configuration file 1106 or script 1100 for the seat position tolerance distance parameter of seat position height parameter
Preset and read by electric machine controller 1002 from configuration file 1106 or script 1100) within, and if load terminal
Extending in for supporting leg 20 and control terminal supporting leg 40 is equal in the 2% of opereating specification, and the Extendible Extent of load terminal supporting leg 20 is small
In seat position height parameter-seat position tolerance distance as a result, then electric machine controller 1002 keeps load terminal solenoid-actuated
Device 1036 allows load terminal supporting leg 20 to increase the specified electric power setting of parameters of electric power and extend, and increases parameters of electric power in configuration file
1106 or script 1100 in preset, and read from configuration file 1106 or script 1100 by electric machine controller 1002.This
Outside, electric machine controller 1002 extends control terminal solenoid actuator 1038 (position that tracking loads supporting leg) in tracking mode
Control terminal supporting leg 40.Electric machine controller 1002 stops extending the supporting leg when supporting leg 20,40 reaches height of seat position.With it is other
The same in mode, when supporting leg starts mobile, electric machine controller 1002 makes supporting leg extension speed start to accelerate to increase parameter soft
In the specified period from start increase electric power speed tiltedly become increase parameters of electric power be arranged speed.It is discharged in operator
After "-" button 1037, electric machine controller 1002 stops in the parameter specified period in soft stop arrives supporting leg extension speed oblique deascension
Start to increase electric power speed parameter.Start to increase electric power if the electric power that sensor 1022 or battery controller 1006 are reported is less than
Speed parameter, then electric machine controller 1002 will be arranged to zero (0) volt to the output power of solenoid actuator 1036,1038.
When approaching seat position height, electric machine controller 1002 makes supporting leg retraction speed increase range correction value parameter
Oblique deascension is lied prostrate at zero (0) in specified distance.If load terminal supporting leg 20 and control terminal supporting leg 40 extend in opereating specification (?)
It is equal in 2%, and load terminal supporting leg 20 extends beyond seat position height+seat position tolerance, then electric machine controller
The 1002 reduction parameters of electric power for making load terminal solenoid actuator 1036 to provide in configuration file 1106 or script 1100 are specified
Electric power setting retract load terminal supporting leg 20.In addition, electric machine controller 1002 is tracking control terminal solenoid actuator 1038
(position that tracking loads supporting leg) retracts control terminal supporting leg 40 in mode.The supporting leg of bed is reaching seat position height parameter
Stop retracting when position.
With other modes, when electric machine controller 1002 starts mobile supporting leg 20,40, supporting leg retraction speed is soft
It reduces to accelerate to reduce in the parameter specified period and tiltedly becomes to reduce the speed that parameters of electric power is arranged from starting to reduce electric power speed.
After operator discharges "-" button 1037, supporting leg retraction speed by soft stop stop in the parameter specified period oblique deascension at
Start to reduce electric power speed.If the electric power that sensor 1022 or battery controller 1006 are reported is needed less than soft reduction electric power speed
The electric power wanted, then output power is arranged to zero (0) volt by electric machine controller 1002.In the position of approach seat position height parameter
When, supporting leg retraction speed by reducing the specified distance of range correction value parameter oblique deascension at zero (0).If supporting leg 20,40
Extend unequal degree be more than opereating specification (?) 2%, then further supporting leg movement will depend on 20 phase of load terminal supporting leg
For the position of control terminal supporting leg 40 and seat position height.If bed 10 is in so that load terminal supporting leg 20 is in seat position
Elevation-over and control terminal supporting leg 40 are lower than load terminal supporting leg 20 and are lower than the position of seat position height, then electric machine controller
Load terminal supporting leg 20 is retracted into its seat position height by 1002, and control terminal supporting leg 40 is then retracted into its operator's seat
Highly.
If bed 10 is in so that load terminal supporting leg 20 is above seat position height and control terminal supporting leg is lower than dress
It carries end supporting leg 20 but is above the position of seat position height, then load terminal supporting leg 20 is retracted to and is controlled by electric machine controller 1002
End supporting leg 40 processed flushes, and then supporting leg 20,40 is equably retracted into seat position height by electric machine controller 1002, then motor
Control terminal supporting leg 40 is retracted into its operator's height of seat by controller 1002.If bed is in so that load terminal supporting leg exists
The position of seat position elevation-over and control terminal supporting leg 40 above load terminal supporting leg 20, then electric machine controller 1002 will be controlled
End supporting leg 40 processed is retracted to be flushed with load terminal supporting leg 20, and then both supporting legs are equably retracted by electric machine controller 1002
Seat position height, then control terminal supporting leg 40 is retracted into its operator's height of seat.
If bed is in so that load terminal supporting leg 20 is lower than seat position height and control terminal supporting leg is lower than load terminal
Control terminal supporting leg 40 is then extended into and is flushed with load terminal supporting leg 20 by the position of supporting leg 20, then equably by both supporting legs
Seat position height is extended to, control terminal supporting leg 40 is then retracted into operator's height of seat.If bed 10, which is in, to be made
Load terminal supporting leg 20 is obtained lower than seat position height and control terminal supporting leg 40 is higher than load terminal supporting leg 20 and but is below seat position
The position of height is set, then load terminal supporting leg 20 is extended into and is flushed with control terminal supporting leg 40, it is then that both supporting legs 20,40 are equal
Seat position height is extended to evenly, and control terminal supporting leg 40 is then retracted into its operator's height of seat.
If bed is in so that load terminal supporting leg 20 is lower than seat position height and control terminal supporting leg 40 is higher than loading
The position of supporting leg 20 and also higher than seat position height is held, then load terminal supporting leg 20 is extended into seat position height and then will
Control terminal supporting leg 40 is retracted into operator's height of seat.If load terminal supporting leg 20 is public in the seat position of seat position height
In difference, then it is activated so that control terminal supporting leg 40 with reduction by electric machine controller 1002 in control terminal solenoid actuator 1038
When level of power is retracted into operator's height of seat, electric machine controller 1002 will not make load terminal solenoid actuator 1036
Mobile load terminal supporting leg 20.
The operation unrelated with mode
Following operation mode is unrelated with the operation of any motor mode: usb data transmits state, cell voltage monitoring, data
Record, error detection and configuration file are executed and are updated.When in usb data transfer mode, such as in personal computer or
The peripheral control unit utility being arranged on intelligent electronic device can read electric machine controller journal file.This controller is practical
The suitable example of one of tool is the Roborunt of RoboteQ (Scottsdale, AZ).It can be to from controller utility
Controller implements software version update and calibrates maximum height and minimum constructive height for angular transducer.Controller utility is also
It can show state and value that the analog/digital for the electric machine controller 1002 described in Figure 15 is output and input.
Cell voltage is monitored, electric machine controller 1002 is responsible for the voltage level of monitoring battery.Predefined idle
Voltage level is read after time, predefined standby time reads standby time parameter definition by voltage, and voltage reads idle
Time parameter starts countdown after pressing the "+" button 1035 or "-" button 1037.It is default that voltage reads standby time parameter
At 15 seconds, but this can be configured via configuration file 1106.If idle voltage level is less than actuator minimum voltage threshold
(preset in configuration file 1106 or script 1100 and read from configuration file 1106 or script 1100), then deactivate actuating
Device.After low-voltage deactivated actuator, cell voltage must become one volt (1V) bigger than actuator minimum voltage threshold,
Then actuator can be just activated.If idle voltage level is less than lamp minimum voltage threshold (in configuration file 1106 or script
Preset in 1100 and read from configuration file 1106 or script 1100), then setting is turned off the light position.It is deactivated for low-voltage
After lamp, cell voltage must become one volt (1V) bigger than lamp minimum voltage threshold, and then lamp can be just activated.
Voltage range: if idle voltage >=VThresh3, section is 3.If idle voltage<VThresh3 and>
=VThresh2, then section is 2.If idle voltage<VThresh2 and>=VThresh1, section is 1.If idle
Voltage < VThresh1, then section is 0.
Data record
Text readable journal file is written to memory, such as memory 102, or is written to flash memory cards, it is all
Such as it is connected to memory stick, SD card and/or the compact flash of the USB of electric machine controller.Journal file will include particular items, should
The each appearance or removing of entry misregistration code.Journal file will include particular items, the entry during operation of lying in bed
Every 50 milliseconds (50ms) record bed state.Journal file will be wrapped during idle period with the period for logging time control of leaving unused
Include entry.Electric machine controller provides following bed mode field in data log files: cell voltage, A1, A2, D1, D2,
C1, C2 value, time stamp ,+button state are shown ,-button state is shown ,+telescopic button handle ,-telescopic button handle, motor control
Device error code, 1 electric current of motor, 2 electric current of motor, motor order 1, motor order 2, directly power code, motor status, battery
Message, A1 speed, A2 speed, 1 temperature of motor, 2 temperature of motor, controller channel temperature, controller IC temperature, failure flag,
Battery temperature and error detection.
Erroneous condition
Electric machine controller 1002 monitors following mistake/alarm condition, and the priorities associated classification of mistake is taken to refer to
Fixed movement." error code position " value of the mark of " situation " that detects and " clear is additionally provided in discussion provided below
Except " movement (if present)." additional act " can be listed for specific mistake, hereafter also discussed.It will be appreciated that
Relevant error code bit is arranged in the message and broadcasts error code position via cable network 1008 for electric machine controller 1002.It is right
In each error code, relevant error icon 51 (Fig. 8) is provided with may be with relevant error to operator's warning to GUI 58
The related function of code or safety problem.In some embodiments, relevant error icon 51 can be encoded by color, wherein high
The first color (such as red) display of priority error code, all other error code can be (such as yellow with the second color
Color) display.Erroneous condition and its priorities associated are discussed now.
Erroneous condition-priority class: nothing.
Situation: low battery (cell voltage is less than 1 voltage of battery section specified in configuration file 1106 or script 1100)
=error code position 0.It removes: the removing when cell voltage becomes higher than battery section 1.
Situation: the idle battery later in standby time is read in voltage and is lower than actuator minimum voltage threshold=mistake
Code bit 1.Additional act: actuator is deactivated.It removes: the removing when cell voltage becomes higher than actuator minimum voltage+1V.
Situation: battery is lower than lamp minimum voltage threshold=error code position after voltage reads and leaves unused in standby time
2.Additional act: bit clear of turning off the light: the removing when cell voltage becomes higher than lamp minimum voltage+1V is set.
Situation: detect to be more than button opening (connection)=error code position 3 in maximum button press.It removes: working as inspection
It measures when button closes (disconnection) and removes.
Situation: during Levelling operation in being greater than the maximum leveling time | A1-A2 | other than levels operation range=wrong
Accidentally code bit 4.It removes: the removing when supporting leg extension becomes level.
Situation: battery charge detection failure (detects zero on Charge+ pin when being provided with the charge position of battery
Voltage)=error code position 5.
Situation: "+" and "-" button=error code position 6 are detected simultaneously by.Additional act: ignore the two button (electricity
Order supporting leg 20,40 is extended or is retracted by machine controller 1002).It removes: being removed when discharging one or two button.
Erroneous condition-priority class: low.Error handle-priority class: low, prior to institute, whether there is or not priority mistakes
Class processing.
Situation: detected on Charge+ improperly charging voltage (on Charge+ > 1.48mV;It is filled equal to > 44.1V
Electrical voltage)=error code position 16.It removes: being removed as voltage < 1.48mV on Charge+.
Situation: bed become shipping height or more (when D1 and D2 are closed, A1 or A2 extend beyond shipping height)=
Error code position 17.It removes: when bed is no longer above shipping height or being higher than shipping height mistake in high priority and come into force it
After remove.
Situation: charge fault (is detected in the charging of not set battery and on Charge+ pin when full of current potential non-
No-voltage)=error code position 19.Remove: the loss of voltage when Charge+ pin or the charging provided with battery are full of
It is removed when current potential.
Situation: battery high-temperature (being provided with the error bit of battery charger high temperature)-error code position 21.It removes: when battery
Removing when high temperature error bit is removed.
Erroneous condition-priority class: medium.Error handle-priority class: medium priority in institute whether there is or not with it is low preferential
Staging error classification processing, and cause solenoid actuator 1036,1038 deactivation (such as in 50 milliseconds) and
This erroneous condition prevents from activating before removing.
Situation: detect that motor temperature is higher than motor overtemperature=error code position 32.Additional act: in overheat mistake hair
When raw, it will continue to monitor and record sensor temperature.It removes: when motor temperature, which becomes lower than motor, restarts temperature, removing this
A mistake.
Situation: electromechanical transducer disconnection=error code position 33.It removes: the removing when detecting motor temperature sensor
This mistake.
Erroneous condition-priority class: high.Error handle-priority class: it is high prior to institute whether there is or not, it is low and medium excellent
The processing of first staging error classification, and cause solenoid actuator 1036,1038 deactivation (such as in 50 milliseconds) and
It prevents from activating before the removing of this erroneous condition.It is wrong that power cycle will remove institute.It is transformed into suspend mode pause is all
Alarm.If the electric current in any one motor exceeds more than 500 milliseconds of 40A, actuator is deactivated.
Situation: supporting leg moving condition speed fault (beyond maximum speed or being lower than minimum speed)=error code position 48.
It removes: being removed after supporting leg speed fault overtime.
Situation: supporting leg moving condition speed fault (being lower than minimum speed)=error code position 49.In button down time
In deactivate actuator and-button.Wrong icon is shown during this time.It removes: if+button is pressed and/or is propping up
It is removed after leg speed fault overtime.
Situation: (A1 or A2 have any situation in following: Ch1 or Ch2 voltage is sensing angular transducer failure
Except the rated range of 0.5V to the 4.5V of device;Or Ch1+Ch2 is not 5V+/- 0.5V)=error code position 50.It removes:
Voltage is removed later back to desired extent.
Situation: bed has been higher than shipping height (A1 or A2 extend beyond shipping height, while D1 and D2 are closed) > 30
Second=error code position 51.Additional act: "-" button 1037 (allow actuator to retract, but do not extend) is not deactivated.It removes:
Bed is removed after being no longer above shipping height.
It should now be understood that embodiment as described herein can be used for by by the support of such as patient support surface etc
Surface is connected to braced frame and transports the patient of various figures.For example, being lifted away from formula stretcher or insulating box can removedly join
It is connected to braced frame.Therefore, embodiment as described herein can be used for loading and transporting from baby to bariatrician patient's
Various patients.In addition, embodiment as described herein, operator can be loaded on ambulance in the following way and/
Or unload from ambulance: keeping single button, (such as pressing "-" button 1037 will be will lie in bed to activate independent hinged supporting leg
It is loaded on ambulance, or pressing the "+" button 1035 is unloaded from ambulance with that will lie in bed).Specifically, bed 10 can be with
Such as input signal is received from operator's control.Input signal can indicate that first direction or second direction (are reduced or risen
It is high).When the signal indicates first direction, this to load terminal supporting leg and this control terminal supporting leg can be reduced independently, or work as
The signal indicate second direction when, this to load terminal supporting leg and this control terminal supporting leg can be increased independently.
It is furthermore noted that such as " preferably ", " generally ", " usual " and " general " etc word be not used in limit herein
The range of the required embodiment of system implies that certain features are most important for the structure or function of required embodiment
, it is required or be even important.But these words are used only to emphasize substitution or additional feature, it is of the invention
It can be used or can not use these features in specific embodiment.
For description and the purpose of the present invention is limited, it is further noted that " substantially " this word used herein carrys out table
Show the uncertainty degree that any quantitative comparison, value, measured value or other representations may have.It is also used herein " basic
On " this word indicate do not cause theme of interest basic function variation in the case where, quantificational expression can be from regulation
Reference change degree.
After referring to specific embodiment, it is evident that in the scope of the present invention for not departing from the appended claims restriction
Under the premise of, modifications and variations may be made.More specifically, although some aspects of the invention indicated herein are preferred
Or it is particularly advantageous, but the present invention wishes these preferred aspects for being not limited to any specific embodiment.
Claims (20)
1. a kind of electronic ambulance bed, for square transport patients on the surface and can automatically regulate to cope with the patient
Condition, the electronic ambulance bed includes:
Braced frame, for the patient support is square on said surface;
Four supporting legs, each supporting leg have the runner for supporting the bed on said surface;
The actuator of bed actuating system, the actuator interconnect the braced frame and a pair of supporting leg, and opposite
Change the position of the braced frame in the runner of each supporting leg;And
Bed control system is operably connected to the bed actuating system to control the activation of the actuator, and
It is asked in response to the data signal messae of the position for changing the braced frame relative to the runner of each supporting leg
It asks, so that the bed actuating system is mobile relative to the braced frame by the bed function of the bed control system
, to the supporting leg, the bed control system provides one or more control signals for this, and the control signal is launched into one
Or multiple processors and received by one or more processors, one or more of processors execute machine readable instructions with
The bed is automatically regulated to cope with the condition of the patient.
2. electronic ambulance bed according to claim 1, wherein the bed control system includes at least one control
Device, sensor, user's display unit, battery unit and wireline communication network, the wireline communication network are configured to described
Message is transmitted between at least one controller, sensor, user's display unit and the battery unit.
3. electronic ambulance bed according to claim 2, wherein the wireline communication network is selected from controller area net
Network (CAN), LONWorks network, LIN network, RS-232 network, Firewire network and DeviceNet network.
4. electronic ambulance bed according to claim 2, wherein the battery unit is the battery integrated with battery pack
Management system, the battery pack provide portable power to the bed, wherein the battery management system controls the battery
The charging and discharging of group, and communicated via the wireline communication network at least one described controller.
5. electronic ambulance bed according to claim 2, wherein at least one described controller is the first controller, and
And the bed control system includes second controller, wherein first controller is opposite for controlling the braced frame
In the electric machine controller of each runner raised and reduced, and the second controller is inputted for receiving from operator
And the graphic user interface controller of output is provided to operator.
6. electronic ambulance bed according to claim 5, wherein the bed control system includes third controller, institute
It states third controller and is selected from wireless controller for sending and receiving wireless communication, sleeping to the electronic ambulance for controlling
The battery controller of battery and combinations thereof of all electric assemblies power supply of bed.
7. electronic ambulance bed according to claim 5, wherein the electric machine controller is passed through by programmed logic script
Programming is crossed, it is described to which each runner relative to the supporting leg raises and reduces to control the activation of the bed actuating system
Braced frame.
8. electronic ambulance bed according to claim 1, the bed function includes CPR function, the cardiopulmonary
Recovery function is operable to automatically regulating the bed into the ergonomics position for being used to execute effective cardiac resuccitation.
9. electronic ambulance bed according to claim 8, wherein the activation of the cardiac resuccitation function makes arrestment mechanism
It automatically activates to lock one or more of described runner.
10. electronic ambulance bed according to claim 8, wherein the height of the braced frame of the bed is adjusted
Save into position corresponding with being suitable for bestowing the height of cardiac resuccitation.
11. electronic ambulance bed according to claim 1, wherein operator's control make the bed function activation,
Or it deactivates or activates and deactivate.
12. electronic ambulance bed according to claim 1, wherein when the bed in ambulance, be connected to it is sleeping
Bed fastener or in both of these case, the bed function can be deactivated automatically.
13. electronic ambulance bed according to claim 1, wherein the bed function includes extracorporeal membrane oxygenation function,
The extracorporeal membrane oxygenation function be operable to for the load terminal of the bed to be automatically maintained at than the bed control terminal more
High height.
14. electronic ambulance bed according to claim 13, wherein the activation of the extracorporeal membrane oxygenation function is automatically
Actuating locking actuator is to prevent one or more revolutions in the runner or turn to.
15. electronic ambulance bed according to claim 13, wherein during the operation of the extracorporeal membrane oxygenation function,
In the case where the control terminal for being maintained above the bed highly automatedly of the load terminal of the bed, the branch
The average height of support frame frame can be adjusted.
16. electronic ambulance bed according to claim 1, wherein operator's control can be by one in the runner
It is a or it is multiple lock or unlock, and when the one or more of the runner is locked or unlocks, the bed function can
Automatically deactivate.
17. electronic ambulance bed according to claim 1, wherein under the manual operation of the bed, the bed
Control system returns to normal operating state.
18. electronic ambulance bed according to claim 1, wherein data signal messae request includes number letter
Breath makes the processor opposite by cardiac resuccitation function or extracorporeal membrane oxygenation function when the digital information is received
This is moved to the supporting leg in the braced frame.
19. electronic ambulance bed according to claim 1, wherein requested by the data signal messae, it is described
Braced frame changes orientation relative to the runner of each supporting leg and needs to be raised and lowered the load terminal of the bed, institute
State the control terminal or both of bed.
20. a kind of method of transport patients square on the surface comprising sleeping using electronic ambulance according to claim 1
Bed.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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US14/538,164 | 2014-11-11 | ||
US14/538,164 US9456938B2 (en) | 2014-11-11 | 2014-11-11 | Powered ambulance cot with an automated cot control system |
CN201580064840.7A CN106999328B (en) | 2014-11-11 | 2015-02-25 | Electronic ambulance bed with automatic bed control system |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201580064840.7A Division CN106999328B (en) | 2014-11-11 | 2015-02-25 | Electronic ambulance bed with automatic bed control system |
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Publication Number | Publication Date |
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CN109077883A true CN109077883A (en) | 2018-12-25 |
Family
ID=52630508
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Application Number | Title | Priority Date | Filing Date |
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CN201810782342.1A Pending CN109077883A (en) | 2014-11-11 | 2015-02-25 | Electronic ambulance bed with automatic bed control system |
CN201580064840.7A Expired - Fee Related CN106999328B (en) | 2014-11-11 | 2015-02-25 | Electronic ambulance bed with automatic bed control system |
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Application Number | Title | Priority Date | Filing Date |
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CN201580064840.7A Expired - Fee Related CN106999328B (en) | 2014-11-11 | 2015-02-25 | Electronic ambulance bed with automatic bed control system |
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US (4) | US9456938B2 (en) |
EP (3) | EP3542767B1 (en) |
JP (2) | JP6417044B2 (en) |
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CN (2) | CN109077883A (en) |
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BR (1) | BR112017009530A2 (en) |
CA (3) | CA3055675C (en) |
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ES (3) | ES2733637T3 (en) |
PL (1) | PL3217936T3 (en) |
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